2. Description of the GSM Datalogger DA4
Contents
1. i Ry P S 2 230VAC PE FEF XN Qi o Jd Pe oru RE ol ae 9 2 ale LITHIUM BATTERY m 4x3 6V 16 5Ah PE 2 o 5 LJP 2 E UU EU R type board VN type board VV type board 205x220x140mm 275x370x140mm 275x370x140mm 230VAC gt POWER SUPPLY 4575 DA4 o POWER SUPPLY PORTI PORT2 ANT ZN type board ZV LV type board ZL LL ZO LO type board 205x319x118mm 205x319x118mm 205x319x118mm 51 CONFIGURATION SETTING 4 Configuration setting Attention If the SIM card isn t included in the GSM Datalogger DAA it is impossible for the GSM Datalogger DA4 to operate The Included SIM card must be activated for GPRS transmissions Insert the SIM card when the GSM Datalogger DA4 is switched off For monitoring of status configuration and administration of the GSM Datalogger DA4 is RADWIN program 3 In left t2. 71 10 COMPLAINTS PROGCEDYJU RE 2 2 72 2 74 Symbols used Danger important notice which may have an influence on the user s safety or the function of the device Attention notice on possible problems which can arise to in specific cases Information notice information which contains useful advices or special interest Conel limited Sokolska 71 562 04 Usti nad Orlici Czech Republic Issue in CZ 22 01 09 SAFETY INSTRUCTIONS Ad 1 Safety instructions Please observe the following safety instructions e The GSM Datalogger DA4 must be used in compliance with all applicable international and national laws and in compliance with any special restrictions regulating the utilization of the communication module prescribed applications and environments e Use only the original Conel company accessories Thus you will prevent possible health risks and damage to the devices and ensure compliance with all relevant provisions Unauthorised adjustments or use of unapproved accessories may result in damage to the GSM Datalogger DA4 and breach of applicable laws Use of unapproved adjustments or accessories may lead to cancellation of guarantee which has no effects on your legal rights e You are not allowed to open the GSM Datalogger DA4 Only SIM
3. 57 4 3 GSM Datalogger DA4 monitoring otra usen edu e Hera Rad e a E In Ro METTRE Ru 59 4 4 Upload firmware to GSM Datalogger 4 61 4 5 Programming XC CNT 64 5 QUALITY OF THE GPRS 1 66 5 1 Antenna installation for 66 5 2 Good quality GPRS 44 0111 000010111 66 5 3 Example station received these 66 5 4 Method of signal 67 5 5 AT MONI command meaning ro eerte tte ere ee dde eda ace 67 5 6 command 68 6 OPTICAL SENSORS INSTALLATION sssssessseeeeeeenenene nennen ennemis nennen nennen nennen 69 6 1 Flowmeter WP WS linn nn nee nerters sse nennen 69 0 2 Flowmeter WPD WSD type ener n ERR a EX tana 69 REFERENCE Si sects 70 8 LINKS RELATED PRODUCTS OF THE 70 8 1 SYON e M 70 0 2 PROLOCONS 70 SMS ATE 70 8 4 Products EP 70 9 PRODUCT DISPOSAL
4. GSM datalogger DA4 USER S GUIDE tug SA T V 3 ISO 9001 2001 CONTENTS Contents 1 INSTRUCTIONS eeu ete d Ear Md el e E ELSE ee 4 2 DESCRIPTION OF THE GSM DATALOGGER 4 5 5 2 2 Examples of possible Hee 5 2 3 Compatibility with other Conel company 6 2 4 Description of GSM Datalogger DA4 6 2 4 1 65 module c 6 2 4 2 Control mliCFrOpFOCeSSOr eee ceat etc etre dioe e rer a e Pee Pe ERE 6 2 4 3 User interface 7 ys memes 7 2 5 Technical parameters 2 ee te ba tete ae d TE ERE E TREES 8 2 6 GSM Datalogger DA4 status 9 2 1 User interfaces 2585 00 s Fase Pe ade LE ERU Da Te Rte 10 2 4 1 PORTT connector R5232 siccis ten eee a d ea ue Cu RR be dedu qua 11 2 2 PORTZ connector ee ee TA Cu ERR Feed E ene 13 2 1 2 AIDE 14 2 2 2 BMA AST TTE 14 2 7 2 3 Counter 1
5. 14 2 7 2 OUND U anveccdsbetdandeeateudonucaauesaxeaatesaugaeatue 14 2 1 2 PWR Supply MH a 16 21 Analogy 1 DET rpm 17 MT 17 2 7 3 3 Output signal for disconnection of supply 17 2 7 3 4 GSM Datalogger DA4 signals 17 27 0 OD Sacco i a err T 18 2 7 3 6 Settings CIO Dalal i r 18 2 7 3 7 Connecting CIO signals to user 1 18 2 7 4 PWR supply eene ener 21 2 7 5 Antenna connectlon ise eer hene e ee ne ERO ed ee ne e cede Er 23 2 8 Technical specifications of port 2 24 2 9 GSM Datalogger DAA 25 PA OSEE uelle UR 25 2 11 XC CNT 2 26 2 12 Available communication 26 2 13 Recommended settings for nennen enne 27 2 14 XC CNT RDS92 protocol 27 2 15 XC CNT MODBUS RTU mas
6. H nr INPUTS OUTPUT UE Y STY 3x2 0 H v l a F 2x COUNTER INPUT Is 5 Ca 2 ANALOGUE SENSOR E z CURRENT LOOP 4 20 EC OPTOSENSOR IS0 12 SENSUS WATER METER BINARY INPUTS AND QUTPUTS VIA RELAY INTERFACE 19 GSM DATALOGGER DESCRIPTION 2 7 3 PWR supply connector Panel socket RJ45 5 Input Output analogue or binary input or binary Input Output output open collector 2 l O4 Input Output analogue or binary input or binary Input Output output open collector 3 Input Output analogue or binary input or binary Input Output output open collector 4 12V Output 12V supply of other circuits connected Output directly to datalogger supply GND Signal and supply ground 2 Input Output analogue or binary input or binary Input Output output open collector 7 1 Input Output analogue or binary input or binary Input Output output open collector 8 Service For servicing purposes only Input Output GSM Datalogger 4 is equipped with user interface CIO for analogue signal reception and processing and control settings of binary signals User is provided with 5 adjustable inputs outputs located on CIO connector at the front panel There are five signals linked to CIO that are possible to process and control by setting up GSM Datalogger DA4 These signals can be controlled remotely or their values can be sent in data form to a remote point of data
7. l OxEFCO 64 R 896 log EPSTEEPIEPUT ey ET ENEPI SEE E OxFOOO 1 R W sign bits array bit 0 sleep mode bit 1 send all values CIO bit 2 send SMS behind communication failure bit 3 send alarms status only bit 4 send alarm end at once OxF001 OxF003 OxF005 OxF007 R W sample storage period min R W wake up period min R W period between communications min N N N N R W permit alarms bit 0 active level on input BIN1 bit 1 active level on input BIN2 bit 2 active level on input BIN3 bit 3 active level on input BINA bit 4 analogy input upper limit overrun AN1 bit 5 analogy input lower limit overrun AN1 bit 6 analogy input upper limit overrun AN2 bit 7 analogy input lower limit overrun AN2 bit 8 limit frequency overrun CNT1 bit 9 limit frequency overrun CNT2 bit 10 active level on input CIO1 bit 11 active level on input CIO2 bit 12 active level on input bit 13 active level on input CIO4 bit 14 active level on input CIO5 bit 15 power supply failure OxFO09 1 R W binary inputs negative logical e input BIN1 GSM DATALOGGER DESCRIPTION Address Length Access Description e bit 1 input BIN2 e bit2 input BIN3 e bit3 input BINA OxFOOA 2 R W AN1 sampling period sec 2 R W AN1 multiplicative constant with marker OxFOOE 2 R W AN1 aditive constan
8. analogy input value CIO1 0x1018 R actual log analogy input value CIO2 0x1019 R actual log analogy input value 0x101A R actual log analogy input value C104 0x101B R actual log analogy input value CIO5 0x101C R actual log reserve 0x101D R actual log reserve 0x101E R actual log reserve 0x101F R actual log reserve rE SSS SSS SS 0x1020 R 2 log 0x1040 R 3 log NENNEN OxAFEO R 1280 log CIO value validity is indicates by BIN array 15th bit GSM DATALOGGER DESCRIPTION 2 17 XC CNT IEC 60870 5 104 protocol description The DA4 automatically sends all logs to dispatching in M SP TB 1 M ME TF 1 and M IT TB 1 types telegrams after connection established The DA4 can work up received commands C IC NA 1 general inquiry C CS NA 1 time synchronization C SC NA 1 1 bit command without time and C SC TA 1 1 bit command with time Data points Type Description 101 M SP TB 1 alarm active level on input BIN1 102 M SP alarm active level on input BIN2 103 M SP alarm active level on input BIN3 104 M SP alarm active level on input BINA 105 SP TB 1 alarm analogy input upper limit overrun AN1 106 M SP TB 1 alarm analogy input lower limit overrun AN1 107 M SP TB 1 alarm analogy input upper limit overrun AN2 108 M SP TB 1 alarm analogy input lower limit overrun AN2 109 M SP TB 1 alarm limit fr
9. the software provides for creation installation and administration of AGNES system GPRS data networks 8 4 Products CGU 04 GPRS modem CGU 04i GPRS modem with sleep mode CGU Server hardware and software equipment connecting AGNES system and company LAN with the possibility of GPRS network control and diagnostics 70 PRODUCT DISPOSAL 9 Product disposal instructions The WEEE Waste Electrical and Electronic Equipment 2002 96 EC directive has been introduced to ensure that electrical electronic products are recycled using the best available recovery techniques to minimise the impact on the environment This product contains high quality materials and components which can be recycled At the end of it s life this product MUST NOT be mixed with other commercial waste for disposal Check with the terms and conditions of your supplier for disposal information 71 COMPLAINTS PROCEDURE 10 Complaints procedure Dear customer The product you have purchased had passed manufacturer s tests and its functions had been checked by our technician before sale case any defect shows up during the guarantee period that prevents normal use we ask you to follow the Complaints procedure when registering your claim To make a possible complaint procedure easier please make sure when taking over the product your vendor has duly filled in all the relevant parts of the warranty including date seal and signature This co
10. In case that it isn t any change on input it is possible to define time after which the value on input will zeroes 2 7 2 4 Binary output The binary output is realized by transistor with open collector In inactive state log 0 the transistor no transfer and is as switch off In active state log 1 is transistor switch on and connect signal on ground GND Maximal switching current on output is 100 mA Maximal voltage which can be on transistor collector is power supply voltage of the GSM Datalogger DA4 The impulse length is possible set in range 125 8000 ms which is possible to send on output after impulses number setting 1 65535 on input BIN1 CNT1 In sleep mode the all inputs and outputs values on PORT2 are metered and controlled 14 GSM DATALOGGER DESCRIPTION Typical connection of DA 4 measuring circuits 12 0 12 0 DA4 2 CONNECTOR RJ45 SECURE BILL AT THE BACK Lm aome XCCNT1 ADR O mo 1 COUNTER BIN INPUTI COUNTERS INPUTS 1 AND 2 CAN WEIDMULLER jon COUNTER BIN INPUT2 E n ALSO AS BINARY 3 BINS BINARY INPUTS gt MON i a BINARY INPUTA THEIR CONNECTION IS SAME AS 5 90 suu CONNECTION OF INPUTS 3 AND 4 Cerom 16 0 1 OUTPUT COUNTER BINARY INPUTS CONNECT M ANALOGUE te ONLY AGAINST GROUND ANALOGUE INPUT2 1 7 8 12VDC 12VDC 1211 M SIGNAL TERMINAL hl s BLOK 1s GND
11. counter maximal frequency CNT1 2 bytes higher first 2 counter status CNT2 4 bytes higher first CNT2FAct counter actual frequency CNT2 2 bytes higher first CNT2FAvg counter average frequency CNT2 2 bytes higher first CNT2FMin counter minimal frequency CNT2 2 bytes higher first CNT2FMax counter maximal frequency CNT2 2 bytes higher first ACVoltage line voltage in tens mV 2 bytes higher first Temperature station temperature in decimals C 2 bytes higher first with marker CIO1 analogy input value CIO1 2 bytes higher first CIO2 analogy input value CIO2 2 bytes higher first analogy input value 2 bytes higher first 4 analogy input value CIO4 2 bytes higher first CIO5 analogy input value CIO5 2 bytes higher first Sum RDS92 message check sum 1 byte 28 GSM DATALOGGER DESCRIPTION Code Sum Type RDS92 message type 1 byte 0 44 always Address interface station address 1 byte Length RDS92 message data part length 2 bytes lower first 0x03 always Code confirmation code of the DA4 logs storage 1 byte 0x31 always PIN confirmations packet identification number 1 byte Time seconds number after which the DA4 will stay in receive after confirmation receiving 1 byte Sum RDS92 message check sum 1 byte Data request 1 1 2 1 2 2 Address Length Code BlockCount Block
12. n 1 90 H xl San Y AC i 5 52 5 m CN pee pomis N DIN 55 mm 65 Y Space for connector CIO a cable CIO EE LEERLO PE For the majority of applications with a built in modem in a switch board it is possible to recognize two sorts of environments e non public and industry environment of low voltage with high interference e public environment of low voltage without high interference For both of these environments it is possible to mount modems to the switch board which it doesn t need to have no examination immunity or issues in connection with EMC according to EN 60439 1 A1 For compliance of EN 60439 1 A1 specification it is necessary observe next assembly of the modem to the switch board e round antenna we recommend to observe a distance of 6 cm from cables and metal surfaces on every side according to the next picture due to the elimination of interference while using an external antenna except for the switch board it is necessary to fit a lightening conductor e before mounting a modem on sheet steel we recommend using an external antenna 46 GSM DATALOGGER DESCRIPTION qb e for single cables we recommend to bind the bunch according to the following picture for this use we recommend length of the bunch combination of power supply and data cables ca
13. 2 W for EGSM900 Class 1 1 W for GSM1800 GPRS multi slot class 10 4 2 GPRS mobile station class B 2 x Time slot max 42 8 kb s 4 x Time slot max 85 6 kb s 20 C to 55 C 40 C to 85 C IP20 IP43 10 to 30 V DC Accumulator 12 V 51 Ah Lithium battery 8 x 3 6 V 16 5 Ah and other types with nominal voltage 10 30 V 3 5 W 1W 350 mW 1 mW 30 x 90 x 102 mm moulding fixed to DIN 35 mm slat 1504 50 Ohm RS232 connector RJ45 300 b s 115200 b s CNT connector RJ45 2 counters 2 binary inputs 2 analogy inputs 1 binary output open collector 5 SW adjustable inputs analogy binary outputs open collector RJ45 connector According to numbers and type sensors numbers of measuring exploitation of the GPRS and according to quality of signal until 8 years out of battery change GSM DATALOGGER DESCRIPTION 2 6 GSM Datalogger DA4 status indication There are two LED indicators on the front panel informing on its status STATE INDICATION GREEN PWR Lights permanently fault TEE EU no DC supply or sleep mode Lights permanently neither serial established Flashes serial connection being established Flashes slowly serial connection established Flashes together with PWR station activation failed NEP GENS Inverse flashing to PWR no DNS connection i iugera nue UP
14. GSM GPRS communication established Flashes dimly GPRS transmission or reception e Serial connection Establishment connection in face of GSM network at the level AT commands e Station activation Modem authentication in global DNS reference 1 e DNS connection Establishment connection with distributed database for interface address translation to IP address e 5 General Packet Radio Services GSM DATALOGGER DESCRIPTION 2 7 User interfaces connectors There are RJ45 PORT1 and PORT2 RJ12 PWR and FME ANT connectors located on the back panel The two PORT1 and PORT2 connectors are for user interfaces The fourth PWR connector is for supply adapter connection Antenna is connected to the last ANT connector There is RJ45 CIO connector located on the front panel 10 GSM DATALOGGER DESCRIPTION 2 7 1 PORT1 connector RS232 Panel socket RJ45 RS232 DCE Data Communication Equipment PORT RS232 Description Data flow direction 1 RTS Request To Send Input 2 CTS Clear To Send Output 3 DTR Data Terminal Ready Input 4 DSR Data Set Ready connected to 4 V through 330 Output Ohm 5 GND GROUND signal ground 6 RXD Receive Data Output 7 CD Carrier Detect Output 8 TXD Transmit Data Input Circuit example of the meter with GSM Datalogger DA4 Pin 1 RTS Pin 2 CTS Pin 3 DTR Pin 4 DSR Pin 5 GND G
15. List of protocols RDS92 e data sending by message code 0x30 e remote XC CNT configuration e remote XC CNT counters settings e digital output remote control e data logger reading when power management is not active e maximum message length 2048 B 1000 B for GPRS MODBUS RTU master e data sending by message code 0x10 write registers e maximum message length 255 B MODBUS RTU slave e data logger reading by message code 0x03 read registers e maximum message length 255 B IEC 60870 5 104 e data sending by telegrams type M SP TB 1 M ME TF 1andM IT TB 1 e telegrams processing type C IC NA 1 and C CS NA 1 e Outputs control by telegrams C SC NA 10rC SC 1 e data encapsuling into TCP or ARNEP e data sending by HTTP protocol e remote XC CNT configuration e digital output remote control e data sending by SMS e maximum message length 160 characters 26 GSM DATALOGGER DESCRIPTION 2 13 Recommended settings for testing Parameter 5 Sleep mode NO Samples period storing 1 min Wake up period 0 min Period between 1 min communications ANx sample period 0 sec 2 14 XC CNT RDS92 protocol description The DA4 automatically sends all logs to dispatching by message with 0x30 code after defined time the DA4 logs request about storage The dispatching confirms every logging by message with 0x31 code answer on request about the DA4 logs storage in which it can specify time after which the DA4 will sta
16. are sends only if given input is supports by XC CNT module firmware Example of the send SMS 2006 01 16 09 15 40 A 0008 V 15 62 1 1 2 1 B3 0 A1 35 2 3527 1 12614 4 4 3 5 Configuration e GPRS connection establishing can disallow by entry empty e of the SMS illegality on some telephones it is possibility switch the SMS format on 7 bit only for firmware from 16 10 2007 and older 2 20 Standard accessories RJ12 supply connector for supply voltage cable Three RJ45 connectors for data cables and CIO connection Compliance certificate Complaint procedure Warranty User manual OORUN 42 GSM DATALOGGER DESCRIPTION 2 21 Additional accessories 1 Supply adapter 2 AO DA4 PWRC supply cable 3 AO AGSM FME V antenna yy 43 GSM DATALOGGER DESCRIPTION 2 22 Assembly procedure GSM Datalogger DA4 is designed as a standard for 1 Assembly to a panel using the through holes Through holes for montage 44 GSM DATALOGGER DESCRIPTION 2 DIN 35 rail assembly using plastic grips 3 To be put on a worktop 45 GSM DATALOGGER DESCRIPTION 2 23 Mechanical external dimensions and mounting recommendations i EL I al ee ae terra ti erre p Space for data cable and data connectors I 1 1
17. MODBUS RTU master XC CNT MODBUS RTU slave XC CNT IEC 60870 5 104 XC CNT mylO XC CNT SMS New protocols not supported by the datalogger yet can be implemented according to the customer s needs GSM Datalogger DA4 also enables the implementation of own user protocol directly by the customer 2 4 4 Sleep mode The GSM Datalogger DA4 contains voltage supply management During idleness the module GSM Datalogger DA4 is switched to sleep mode when energy demand is very slow 100 pA Time of switch to sleep mode is adjustable The status change on port or control centre can wake up GSM Datalogger DA4 to on line mode The sleep mode isn t possible to activate with service cable data cable KD 2 and service jumper SEPRO GSM DATALOGGER DESCRIPTION 2 5 Technical parameters GSM Datalogger DA4 SIEMENS MC389i Complies with standards Frequency bands Transmit power GPRS connection Communication speed Temperature range IP code Power supply voltage Consumption Dimensions Weight Antenna connector User interfaces Operable time Power safety EMC Radio parameters Transmission Reception Function Storage On the basic code Inside of switch box Mains power supply Battery GPRS TX GPRS on line GSM stand by Sleep mode 1 2 CIO EN 60 950 2001 EN 55022 1998 A1 2000 A2 2003 Cor 2003 3GPP TS 51 010 1 v5 5 0 EN 301 511 v7 0 1 EGSM900 55 1800 and GSM1900 GSM Phase 2 2 Class 4
18. PORT2 CNT of the GSM Datalogger DA4 is possible configure by the help of firmware which can activate or disactivate appropriate input output Firmware name has form V1x2x3x4x5x6x7x hex where number description is FORBES E 1a Input AN1 analogy switch on 1n Input AN1 switch off 2a Input AN2 analogy switch on 2n Input AN2 switch off 3b Input BIN1 binary switch on 3c Input CNT1 counter switch on 3d Input CNT1 CNT2 bidirect flow 3n Input BINT CNT1 switch off 4b Input BIN2 binary switch on 4c Input CNT2 counter switch on 4d Input CNT1 CNT2 bidirect flow 4n Input BIN2 CNT2 switch off 5b Input binary switch on 5n Input BIN3 switch off 6b Input BIN4 binary switch on 6n Input BIN4 switch off 70 Output OUT1 switch on 7d OUT1 control feeder according to input 3 7n Output OUT1 switch off Example after firmware upload V1a2a3b4b5b6b7o hex the PORT2 CNT will have configuration EN 1a Input AN1 analogy switch 2a Input AN2 analogy switch on 3b Input BIN1 binary switch on 4b Input BIN2 binary switch on 5b Input BIN3 binary switch on 6b Input BINA binary switch on 70 Output OUT1 switch on 64 CONFIGURATION SETTING The function Programming XC CNT firmware is in main menu Service see chapter 3 f In the window for programming firmware is by button File choice appropriate configuration
19. RF channel acknowledge YES YES Send alarm termination immediately NO NO Send only alarms NO NO Send all CIO values NO NO Send only actual data NO 0 Target interface address 0 0 Target address 0 0 0 0 0 0 0 0 port 0 0 Phone number 000000000000 0 Send SMS when communication fail NO 0 Low power mode NO YES Data sampling period 15 15 min Modem wake up period 0 0 min Communication period 1440 1440 min Select parameter expert v Text Init Save Quit Protocol XC CNT parameters description ame o NA 1 Protocol Port type Firmware type Firmware configuration Firmware version Communication protocol YYYYMMDD Download configuration from server 53 Set network address interface address Name of the user s protocol XC CNT Modem port type information Firmware type in XC CNT module Inputs and outputs configuration firmware in XC CNT module Firmware version date in XC CNT module Communicates protocol which will send or read data After configuration set via web interface CONFIGURATION SETTING RF channel acknowledge Send alarm termination immediately Send only alarms Send all CIO values Send actual data only Target interface address Target IP address TCP port Phone number Send SMS when communication fail Low power mode Data sampling period Modem wake up period Communications period 54 YES
20. card replacement is allowed AN Caution The SIM card could be swallowed by small children e Voltage on the GSM Datalogger DA4 supply connector shall not be exceeded e e Caution Do not connect power supply connector to the port connector PORT1 or PORT2 it could be damage this ports e Do not expose the GSM Datalogger DA4 to extreme conditions Protect it from dust moisture and heat e t is recommended not to use the GSM Datalogger DA4 at petrol stations We remind users to observe the limitations of radio devices use at pump stations chemical plants or where explosives are being used Switch the GSM Datalogger DA4 off in a air plane Use of the GSM Datalogger DA4 may endanger plane s functions interfere with mobile network and be illegal By not following these instructions the customer risks cancellation or termination of telephone services prosecution or both e You have to be extremely careful when using the GSM Datalogger DA4 in proximity to medical devices such as pacemakers or hearing aids e Close to TV sets radios and PCs the GSM Datalogger DA4 may cause interference e t is recommended to create proper copy or backup of all the important settings saved in the device s memory GSM DATALOGGER DESCRIPTION 2 Description of the GSM Datalogger DA4 2 1 General Telemetric arrangement GSM Datalogger DA4 is low power arrangement for gathering in premises and objects where reticular power supply is
21. network 16 e GSM DATALOGGER DESCRIPTION 2 7 3 4 Analogy input Voltage is checked every 100 ms from the analogue input transferred to digital ten bit value and adjusted by calibration constant The value is further average computed according to user interface and saved the computer memory Basic input voltage range is 0 5 V Beware in sleep mode the inputs values aren t measuring 2 7 3 2 Binary output Binary output is implemented by a transistor with open collector connected to I O signal When inactive log 0 the transistor does not conduct and acts like open switch When active log 1 the transistor acts like switch connecting I O signal to the ground GND In both cases the value is measured as an analogue input The status of switched circuit is being checked Maximum switched output current is 500mA Maximum voltage at transistor collector equals the supply voltage of GSM Datalogger DA4 Beware in sleep mode the inputs values aren t measuring 2 7 3 3 Output signal for disconnection of supply voltage The only single output signal is PWRSV Power Save The signal is linked to the supply connector see the supply connector description It is connected as universal I O signal outputs This is an open collector that switches PWRSV signal to the ground GND The output is controlled by a report similar to I O outputs In general this output can be used to control technology 2 7 3 4 GSM Datal
22. value GSM Datalogger 4 status is possible read only one shot or cyclic The period of read is set in Setting gt Properties gt Common tap gt Rep period Read history pro find simplification of the GSM Datalogger DAA status is possible move in history after ten logs By button First 10 is in panel History ten the newest actual data By button Next 10 is can see older data By button Configuration is possible basic configuration of the GSM Datalogger DAA see chapter 3 f By button Quit is the GSM Datalogger DA4 status and monitoring finished Information line display informations about switch on switch off successful unsuccessful data read and clock CONFIGURATION SETTING 4 4 Upload firmware to GSM Datalogger DA4 The firmware actualization is complex function which do program update in the GSM Datalogger DA4 The new firmware files CGVL bin and CGVM bin is necessary copy to directory BIN in file where is installed RADWIN program in order to program RADWIN upload firmware into GSM Datalogger DA4 Attention Do not switch off station power at firmware upload to station else the GSM Datalogger DA4 can be damaged The function Upload firmware is in function list see chapter 3 7 In window for upload firmware are set values and properties for firmware upload In field File information is file name and date which is choose for upload into station In field Station information is firmware date in station b
23. 1 output control OUT1 SEES E 2501 output control 1 2502 output control CIO2 2503 output control CIO3 2504 output control 1 4 2505 output control CIO5 40 GSM DATALOGGER DESCRIPTION 2 18 XC CNT mylO protocol description The XC CNT MyIO protocol is communications protocol of the XC CNT firmware for data transmition on web dispatching By the help of this protocol the dispatching software configures the module software read her buffer controls binary output and switches off main station power supply The MylO protocol is client server type It behaves as client which it connects on dispatching server by the help of TCP connection in periodic time As transport layer is used HTTP protocol Dispatching server has the static IP address The one communications relation has the following process the client establish HTTP connection on server and by the help of method POST it send all its data Server receive data and it send answer which it has up to 3 independent blocs confirmation output set up and configuration The compulsory is only confirmation block other blocks the server sends if itis need In the end the client finish connection and it start count out time to next relation 2 19 XC CNT SMS protocol description The DA4 automatically sends all logs in SMS messages on telephone number after defined time Outgoing SMS format YYYY MM DD hh mm ss Azalarms V
24. 1 byte Data loggin reguest UMEN Sum Sum Type RDS92 message type 1 byte 0x44 always Address interface station address 1 byte Length RDS92 message data part length 2 bytes lower first Code request code about data loggin 1 byte 0x08 always BlockCount block number 2 bytes higher first BlockAar1 first block start address 2 bytes higher first BlockLen1 first block length 2 bytes higher first Data first block data N bytes BlockAarX X th block start address 2 bytes higher first BlockLenX X th block length 2 bytes higher first DataX X th block length N bytes Sum RDS92 message check sum 1 byte Answer on data loggin reguest 1 2 N 2 2 N sum Sum Type RDS92 message type 1 byte 0x44 always Address interface station address 1 byte Length RDS92 message data part length 2 bytes lower first 30 GSM DATALOGGER DESCRIPTION Code request code about data loggin 1 byte 0x09 always BlockCount block number 2 bytes higher first BlockAar1 first block start address 2 bytes higher first BlockLen1 first block length 2 bytes higher first Data first block data bytes BlockAarX X th block start address 2 bytes higher first BlockLenX X th block length 2 bytes higher first DataX X th block length N bytes Sum RDS92
25. 2 AC voltage ooo E History o 2 BIN3 oO Temperature 33 60 C 8 11 2007 14 49 22 Cio o lt BIN4 r Analog inputs r CIO ANT CIO1 Bo Counter inputs rCNTI CNT2 STATE FLOW AYER FLOW AYER FLOW MIN FLOW MIN FLOW MAX FLOW MAX FLOW Read new value Read history One shot Cyclic First 10 Next 10 Configuration Quit Output was set 15 05 22 This window has few parts e Binary inputs there is active inputs signalization eventually alarm on active level signalization e Diagnostic there is DC voltage status in the case of power supply backup AC voltage status and temperature inside modem e Set output possibility to switch on or switch off output switch on or switch off is signalized in information line in window bottom e Analogy inputs there are actual statuses on analogy inputs in the case of upper or lower limit overrun is can see alarm field 59 60 CONFIGURATION SETTING CIO there is I O signals status History there are all last possible obtained statuses of the GSM Datalogger DAA at click on log it can see statuses of the inputs and outputs Counter inputs there is counter state which after click on button Setting is possible set reset flow average flow minimal and maximal flow eventually alarms at flow overrun Read new
26. Adr1 2 2 2 MEN Blocktent Blocadx Blocdenx sum Type RDS92 message type 1 byte 0 44 always Address interface station address 1 byte Length RDS92 message data part length 2 bytes lower first Code data request code 1 byte 0x06 always BlockCount block number 2 bytes higher first BlockAar1 first block start address 2 bytes higher first BlockLen1 first block length 2 bytes higher first BlockAarX X th block start address 2 bytes higher first BlockLenX X th block length 2 bytes higher first Sum RDS92 message check sum 1 byte Answer on data request 2 2 2 n BlockLent Data BlockAdrx Blockenx Datax 2 Sum 29 GSM DATALOGGER DESCRIPTION Type RDS92 message type 1 byte 0x44 always Address interface station address 1 byte Length RDS92 message data part length 2 bytes lower first Code Data request answer code 1 byte 0x07 always BlockCount block number 2 bytes higher first BlockAar1 first block start address 2 bytes higher first 1 first block length 2 bytes higher first Data first block data bytes BlockAarX X th block start address 2 bytes higher first BlockLenX X th block length 2 bytes higher first DataX X th block length N bytes Sum RDS92 message check sum
27. Answer on request about the DA4 logs storage Address FC RN RO Address dispatching address 1 byte FC function code 2 bytes higher first 0X10 always RN referential number 2 bytes higher first RC registers number 2 bytes higher first CRC 16 bit check sum of data packet 2 bytes 2 16 XC CNT MODBUS RTU slave protocol description The DA4 automatically stores the measuring data to its operation memory which the dispatching can reads by message with 0x03 code reads of more registers values The DA4 addresses ae Address Access Desorption EN 0x1000 R actual log upper 16 bits of the log number 0x1001 R actual log lower 16 bits of the log number 0x1002 R actual log upper 16 bits of the time stamp 0x1003 R actual log lower 16 bits of the time stamp 0x1004 R actual log alarms status e bit 0 active level on input BIN1 e bit 1 active level on input BIN2 e bit 2 active level on input BIN3 e bit 3 active level on input BINA e bit 4 analogy input upper limit overrun AN1 e bit 5 analogy input lower limit overrun AN1 36 GSM DATALOGGER DESCRIPTION Asares access peseripion 000000 bit 6 analogy input upper limit overrun AN2 bit 7 analogy input lower limit overrun AN2 bit 8 limit frequency overrun CNT1 bit 9 limit frequency overrun CNT2 bit 10 active level on input CIO1 bit 11 active level on input CIO2 b
28. C supply voltage 10 to 30 V 2 PWRSV Output open collector Power Save See CIO Output description 3 INAC Network supply presence check Range 0 V Input 4 UN Positive pole of DC supply voltage 10 to 30 V 5 GND Negative pole of DC supply voltage 6 GND Negative pole of DC supply voltage Note Clamps 1 4 UN 5 6 GND are in the datalogger connect for bigger current overload On the power supply connector it is possible to use the signal INAC NAP230 for present AC voltage monitoring for power supply it can be functional only in case of supply accumulator backup 4 Beware NAP230 input it isn t possible connect link voltage 230 V direct Circuit example EC DC supply Pin 1 UN 2 NC Pin 3 INAC GSM Datalogger DA4 Pin 4 UN Pin 5 GND Pin 6 GND 21 GSM DATALOGGER DESCRIPTION 4 Battery supply Pin 1 UN Pin 2 NC Pin 3 INAC Pin 4 UN Pin 5 GND Pin 6 GND GSM Datalogger DA4 d DC supply with backup battery with present supply monitoring Pin 1 UN Pin 2 NC Pin 3 INAC Pin 4 UN Pin 5 GND Pin 6 GND GSM Datalogger DA4 d DC supply with backup battery without present supply monitoring 22 Pin 1 UN Pin 2 NC Pin 3 INAC Pin 4 UN Pin 5 GND Pin 6 GND GSM Datalogger DA4 GSM DATALOGGER DESCRIPTION 2 7 5 Antenna connection Antenna is
29. NO YES NO YES NO YES NO YES NO 0 65534 XXX XXX XXX XXX 0 65535 12 point number without introductory YES NO YES NO 0 65535 min 0 65535 min 0 65535 min target IP address set and this parameter set the configuration will download from server and upload to the DA4 Message confirmation on AGNEP protocol level permitting If it is alarm end record will permitting to send at once Permitting of the switch alarm on status sending only Permitting of the all measured CIO values send temperature 2x voltage 5 input analogy in the each record SMS protocol out of own line Permitting of actual data sending only Target modem address which datalogger will send read data or ASDU address in protocol IEC 60870 5 104 The IP address of the server from which DA4 configuration will download TCP port of the IEC 60870 5 104 protocol Telephone number where it will send read data in case of SMS protocol choice Or informative SMS in case of communication failed Permitting of the GPRS FAILURE SMS in case of communication failed SMS protocol out of own line Permitting of the switch sleep mode on XC CNT module automatically switches main power supply off Period which XC CNT module stores samples to buffer After buffer saturation it is switch main modem power supply on short time and data are read to redundancy RAM memory If it is not activate slee
30. Phone number 5 Phone number B Object name Object name Alarm issue name and issue termination alarm Alarm termination name AN1 upper limit alarm Analogy inputs alarm Alarm name Alarm name Send to phone number 1 no Send to phone number 2 no arm name Send to phone number 3 no Send to phone number 4 no Send to phone number 5 no Definition on Editable field Send to phone number no which tel number will send alarm Define up to sixtel numbers B AN2 lower limit alarm Alarm name Send to phone number 1 no Send to phone number 2 no Send to phone number 3 no Send to phone number 4 no Send to phone number 5 no Send to phone number B no 57 CONFIGURATION SETTING upper limit alarm Counters inputs alarm E Alarm name Send to phone number Send to phone number 2 no Alarm name Send to phone number 3 no Send to phone number 4 no Definition on Send to phone number 5 no Editable field which tel number Send to phone number B no will send alarm E 101 active level alarm CIO alarms Send to phone number 1 no Send to phone number 2 no Alarm name Send to phone number 3 no
31. SM Datalogger DA4 Pin 6 RXD Pin 7 CD Pin 8 TXD 11 GSM DATALOGGER DESCRIPTION GSM Datalogger DA4 Cable KD 2 e the cable KD2 is connected to the PC serial port example COM1 12 GSM DATALOGGER DESCRIPTION 2 7 2 PORT2 connector CNT Panel socket RJ45 Pin number Signat mark peseription Direction 1 BIN1 CNT1 Binary input counter input Input 2 BIN2 CNT2 Binary input counter input Input 3 BIN3 Binary input Input 4 BINA Binary input Input 5 GND Signal ground 6 OUT1 Binary output open collector Output 7 1 Analogy input Input 8 AN2 Analogy input Input The user interface CNT is for monitoring and processing of analogy and binary signals and to control settings of binary signal To disposition are 2 counter and 2 binary inputs or 4 binary inputs 2 analogy inputs a 1 binary output The settings of binaries and counters inputs by the help of firmware in which it is defined the singles inputs and output The upload firmware is in RADWIN program see reference 3 13 GSM DATALOGGER DESCRIPTION 2 7 2 4 Analogy input On analogy input it detected current converted to digital 12 bits value and modified by multiplicative and additive constant Next the value is averaged on user settings and stored to PC memory The basic range of input current is 0 20 mA at input resistance 100 Equal of value is 12 bit value addit constant multiplic constant 1000 The
32. Send to phone number 4 no Definition on Editable field Send to phone number 5 no which tel number Send to phone number 5 no d will send alarm E Power failure alarm Power supply alarms Enable sending j Send to phone number 1 no no Send to phone number 2 no Alarm name Send to phone number 3 no 4 Send to phone number 4 no Definition on Editable field Send to phone number 5 no which tel number Send to phone number B no will send alarm a From database After enter the interface address itis possible save all settings by this button After settings saving is external configuration finish by this button The telephone numbers on which are send information SMS is possible configure by the help of configuration SMS send on appropriate GSM Datalogger DA4 The configuration SMS has form password SET x number where password is password to GSM Datalogger DA4 implicitly it is serial number SET x set appropriate telephone number number is new telephone number on which the information SMS will send Example 123456 SET2 420123456789 where 123456 is password to station SET2 set 2nd telephone number 420123456789 58 CONFIGURATION SETTING 4 3 GSM Datalogger DA4 monitoring In main menu Service item DA4 is possible see GSM Datalogger DA4 status 4 ET A Binary inputs Diagnostic Set output BINI DCvoltage V ON orr BIN
33. arm elicitation behind active level Analogy input permitting according to firmware configuration XC CNT module Input value sampling period In case of zero value measuring circuit is switch on permanently and input is samples every seconds In case of non zero value measuring circuit is switch on only in defined time by following parameter Measuring circuit switch on time and A D converter activation Samples number from which average value is quantifies Calibration coefficient Calibration coefficient Hysteresis value for evaluation of the defined limits overrun Lower limit of signal alarm Upper limit of signal alarm Permitting of the overrun limit alarm invoking Permitting of the overrun limit alarm invoking Counter input permitting according to firmware configuration XC CNT CONFIGURATION SETTING CNTx full duplex CNTx multiplicative constant CNTx flow upper limit CNTx limit overrun time CNTx time for measurement reset CNTx upper limit overrun alarm OUT1 enabled OUT 1 idle level OUT1 automatic feeder control OUT1 number of impulses on BIN1 CNT 1 OUT1 impulse duration CIOx alarm on active level PWR alarm on active level External configuration of protocol YES NO 1 65535 0 65535 0 65535 sec 0 255 sec YES NO YES NO Log1 LogO YES NO 1 65535 0 125 8 sec YES NO YES NO
34. cate simply between all the systems Apart from data transfers via GPRS the GSM Datalogger DA4 enables SMS The radio component GSM GPRS is built in the GSM Datalogger DA4 consisting of MC39i OEM module SIEMENS GSM Datalogger DA4 is controlled by communication 32 bit microprocessor It ensures GSM GPRS communication data transfer on serial user interfaces and a number of diagnostic and service features GSM Datalogger DA4 has one serial user interface communication port RS232 one user interface for direct connection of inputs and outputs for data collection and technological process management communication port CNT which processes data andin sleep mode and one interface for direct connection of inputs and outputs CIO which processes data in operate mode only As a result you may communicate with various user interfaces using different communication protocols on serial interface 2 2 Examples of possible applications The typical mounting of GSM datalogger can be Observation of pressure flow surface Isolator high tension Observation of statics construction Commentary from seismographs Metering of atmosphere cleanness Reading of several flow meters on one s bus MBUS in housing houses and in shafts with more flow meters Possibility to parameter setting or switch to the online mode from control centre GSM DATALOGGER DESCRIPTION 2 3 Compatibility with other Conel company modems Regarding the communication and
35. connected to GSM Datalogger DA4 by FME connector on the back panel CONNECTOR ANI 23 GSM DATALOGGER DESCRIPTION 2 8 Technical specifications of port 2 24 e PORT1 with RS232 serial link Name of product Expansion port RS232 Power supply Environment Standards Bus RS232 EN 1434 Internal Operating temperature Storage temperature Emission Immunity Safety Max operating bus current Max data rate Max overvoltage Max total cable length 300Bd 200nF km e PORT2 with direct connected CNT users signals Name of product Expansion port CNT Power supply Supply power Environment Standards Inputs outputs Others Voltage Sleep Operation Operating temperature Storage temperature Emission Immunity Safety Isolation 2x counter 2x analogy inputs 2x binary inputs 1x output open collector Voltage resistance Sleeping mode 20 55 20 85 C EN 55022 B ETS 300 342 EN 60950 15 mA 230400 bps 30 V 20 m Internal 10 30V 100 pA counter is functional 2 mA 20 55 C 20 85 C EN 55022 B ETS 300 342 EN 60950 EN 60747 Max 100 Hz ratio max 1 10 0 20 mA Rin 100 Ohms reed contact 100 mA Permanent Controlled GSM DATALOGGER DESCRIPTION 2 9 GSM Datalogger DA4 settings Configuration and service SW RADWIN is designed for the datalogger setup reference 3 The software is created for MS WINDOWS 95 98 ME 2000 XP pla
36. d months Vendor Date of purchase Seal of the vendor 74 WARRANTY Date of complaint registration Complaint protocol number Date of reception of the device in repair shop Date of finished repair Seal of the repair shop 75 L Zamenhofo str 5 LT 06332 Vilnius Lithuania Tel 370 5 2032302 sales industrialconnection eu www industrialconnection eu
37. data transfers the GSM Datalogger DA4 is compatible with the CGU 04i type and older CGU 04 This means it is possible to combine all types in one network and simply extend an existing network of CGU 04i modules with new communication points using GSM Datalogger DA4s The GSM Datalogger DA4 provides some features which is not included in the CGU 04i type User and industrial communication protocol implemented on serial interfaces are compatible with the protocols used for Conel radio modems e g CDA 70 You may establish complex combined data networks consisting of radio Ethernet and GPRS modems 2 4 Description of GSM Datalogger DA4 components 2 4 1 GSM module SIEMENS MC39i OEM module is used for GSM network wireless communication It is integrated into printed circuit board FME antenna connector is accessible from the back panel Release SIM card reader is located on the front panel The MC39i module communicates in three GSM bands 900 MHz 1800 MHz and 1900 MHz It can transmit in two Time Slots and receive in four GPRS multi slot class 10 maximum reception bit speed 85 6 kb s It supports CS 1 CS 2 CS 3 and CS 4 encryptions 2 4 2 Control microprocessor Thirty two bit microprocessor Freescale Coldfire with 1 MB SRAM backup memory 512 kByte FLASH EEPROM memory and realtime circuit with reserve power supply makes for the basis of GSM Datalogger DA4 control microprocessor Software is based on realtime operating sys
38. defect repaired for the price set A protocol shall be made on exact conditions of the extra warranty repair and signed by both the customer and the vendor Should the customer not require remedy through an extra warranty repair under the conditions the device shall be returned to him her after he she pays the demonstrable cost of expert assessment guarantee does not cover defects incurred due to Mechanical damage fall and the like Use of inadequate or not recommended sources and other accessories Connection of the product with non standard accessories Installation or use of the product conflicting with the Manual or use for other purposes than usual for this type Improper manipulation or an intervention of unauthorised person or other service than authorised by the manufacturer Effects of natural forces flood fire etc or other local phenomena storm overvoltage and the like Storage under unauthorised temperatures Operation in a chemically aggressive environment Other conditions The fact that the subject of the complaint does not conform to parameters set for other similar product types shall not be considered a fault To assess whether it is a case of covered fault the parameters stated in the technical documentation for the product are decisive The guarantee expires in any case of changes to the subject of the complaint or damaged or otherwise unreadable serial number 73 WARRANTY Guarantee perio
39. description Source Select file type typically MAIN for main file with full functionality and LOAD file with minimum functionality only for firmware upload Nr of blocks Number of block before Radwin send upload state request Confirm message Select type of confirming Unchecked means that Radwin checked only at the end of upload checked means that Radwin checked every message Block length Number of bytes in message Timeout Timeout in ms for message delivery If acknowledge is not delivered in this timeout error message is displayed in dialogue and message is send again 62 CONFIGURATION SETTING After click on button Start is firmware uploaded into GSM Datalogger DAA after successful firmware upload into station is can see next window 63 Upload firmware DA4 1 Upload OK Flle informatiorr r Progress Name CGVM BIN Uploadtime 451 Date 31 10 2007 Time left 0 00 Available version ori 031 Timeout 64 9 Station information Errors 0 Station type 4 Address Fooscaca SW version date 5 10 2007 State Sector Command Block joK Phase Standby Password foes Mode Man Total DE REE RR ELI EET E EL ELE EI PEPPER EL ELE EL EL ERB ELE E ELE 100 0 Start from origin Setting Quit By button Quit is firmware actualization of the GSM Datalogger DA4 finished CONFIGURATION SETTING 4 5 Programming XC CNT firmware
40. efore upload station type and address from them the firmware will upload If in station is user created firmware then after date is character u In field State and Progress are next diagnostic data In part Total is can see how long the upload is in progress Upload firmware DA4 1 1 5 Do not switch off station power Flle information Progress Name DGVMBIN Uploadtime 1 51 Date 1102007 0 Time left 317 Available version 071031 Timeout 549 Station information Errors 0 Station type CGU04 Address Fo024000 SW version date 31 10 2007 State Sector Command OK Upl ok Block OK Phase In progress Password ok Mode Loader Total E E EI ELE EIL ELE ELE EL ELE EE E E ELE 36 3 Upload in progress 61 CONFIGURATION SETTING Button description Button Description Start Start firmware upload version of firmware is compared In case when station firmware is newest or same as file in PC dialogue give you chance to stop upload or continue next Start from origin Complete overwrite firmware in station Setting Setting of firmware upload Quit Close dialogue After click on button Setting is next window Upload setting Source Block length LOAD MAIN MAIN ROCA 512 LOAD MAIN LOAD Nr of blocks 8 Timeout ms 60000 Confirm messages Max retries 1 OK z Cancel Parameters
41. el chann rs dBm LAC cell NCC BCC PWR RkLev C1 I chann TS timadu PWR dBm Q Chi 36 50 66 230 01 3576 6945 2 33 1066 461 No connection chann rs dBm HCC WNC BCC C1 C2 79 48 76 238 981 1 36 36 75 28 82 238 01 2h 2h 102 18 92 236 81 8 15 14 68 OPTICAL SENSORS INSTALLATION 6 Optical sensors installation Optical sensor set to flowmeter Sensus Meinecke or Spanner Pollux for scanning of the 152 12 flow by following way 6 1 Flowmeter WP WS type 1 2 3 Safety screw screw out in place of joint cover Gold cover uncover The cover frame lift slightly on side of joint cover and at the same time the frame is turn to left when two tongues are free from bayonets pits on the bottom side of the frame in the flowmeter body 4 The optical sensor set to fishtail by cable down on transparent chassis of gear box 5 The sensor cable one turn round bottom border of gear box and lead out by one from two rough channels on body of the flow meter on side of the safety screw Repeatedly the cover frame set to bayonet attention on nip cable off Screw up the screw in place of joint cover The cover cover up back herewith stop crossluminance to sensor 6 2 Flowmeter WPD WSD type 69 1 By the screw driver break out rough window on the side of flowmeter head box knife to get rid of burrs Turn the blue plastic collar black head to the meter to the left to achieve that locking
42. equency overrun CNT1 110 M SP TB 1 alarm limit frequency overrun CNT2 Iu IEEE SECOS 201 M SP TB input level BIN1 202 MSP input level BIN2 203 M SP input level BIN3 204 MSP input level BINA E SN E 301 M_ME_TF_1 analogy input value AN1 302 M_ME_TF_1 analogy input value AN2 ES fupcr pug 401 M IT TB 1 counter status CNT1 402 M IT TB 1 counter status CNT2 411 M ME TF 1 counter actual frequency 1 412 M ME TF 1 counter actual frequency CNT2 421 M ME TF 1 counter average frequency 1 422 M ME TF 1 counter average frequency CNT2 431 M ME TF 1 counter minimal frequency CNT1 39 GSM DATALOGGER DESCRIPTION Type EN 432 ME TF 1 counter minimal frequency CNT2 441 M ME TF 1 counter maximal frequency CNT1 442 M ME TF 1 counter maximal frequency CNT2 xmi 501 M ME TF 1 analogy input value CIO1 502 M TF 1 analogy input value CIO2 503 M ME TF 1 analogy input value CIO3 504 M ME TF 1 analogy input value 4 505 1 analogy input value CIO5 a 601 M ME TF 1 power supply V 602 link voltage V 603 TF 1 station temperature Note The quantity of the send data points is depends on XC CNT module firmware alarms permit of the singles inputs and parameters send alarms status only and send all values CIO Commands Type Description S SN 220
43. er or should it not be taken over on the date the customer is obliged to take over the repaired or replaced product In case the vendor replaces the subject of the complaint for a new product including IMEI replacement the original subject ofthe complaint becomes property of the vendor and the new product becomes property of the purchaser Since takeover of the new product anew guarantee period starts In the cases when the vendor settles the matter after agreement with the customer by replacement of the subject of the complaint for a faultless product the new guarantee expires 1 After 12 months since the replaced product was taken over by the customer 72 COMPLAINTS PROCEDURE BOMAZ e 7 8 the date when the original guarantee period subject of the complaint would have expired should it not have been replaced whichever comes first The claim is deemed unsubstantiated when the defect is not found by the vendor processing the complaint or the defect is not covered by the guarantee under Article 3 of the procedure In case the claimed defect is not found and functionality is proven to the customer the customer is obliged to pay demonstrable cost related to expert assessment of the claimed defect In case defect is found when processing the complaint that is not covered by the guarantee extra warranty repair the vendor shall inform the customer and the customer shall inform the vendor whether he she wishes to have the
44. firmware for the PORT2 CNT In field State are other diagnostic states with rail where is programming time Programming XC CNT firmware DA4 C Program Files x86 Radwin BIN Firmware CNTW1a2a3c4c5 State Programming start Erase memory Transfering block After successful Programming XC CNT firmware is function finished by button Quit 65 GPRS SIGNAL 5 Quality of the GPRS signal The AGNES system works with the aid of the GSM network The AGNES stations contain GSM GPRS modules which are on the radio channel connected to a certain GSM cell Its signal can be evaluated with the aid of this function The function is used first of all when installing the station and checking its function From the obtained information the following can be read On which channel the station operates what is its signal strength what neighbour channels are available and what their signal is strength These data are often indispensable for the correct installation of the antenna 5 1 Antenna installation for modems Good placement of antenna is required for good function Important factors are GSM cell signal strength and signal quality Signal strength could me measured by function GPRS receive signal strength measuring in program Radwin Second part is quality of signal There is no exact measurement Good point of view is from data transfer statistic If number of lost packet is low signal
45. gital input for AC DC signals up to 30 input on high voltage brackets up to 350 V It includes bipolar optoelement that enables processing both input signal polarities For AC signal it includes integration circuit that provides for direct processing of 50 Hz signal Output logical value of the measured signal is LED signalled on the front panel Input circuits are protected against short time overvoltage by suppressors and against the long time one by a reverse fuse CIO REO 2 Binary relay output It includes a relay with one switch contact Switch output on off contact is linked separately common contact twice C marking The presence of a control signal is LED signalled 19 GSM DATALOGGER DESCRIPTION Circuit example The modules CIO 2 are connects by the help of KD 51 cable cable 1 1 The connector K1 is input K2 output to other CIO 2 module By serial modems connection the addresses are automatically assigned In the direction from modem the addresses raises uplink 1 2 3 4 and 5 Maximal module number in series is five See reference 4 Cable KD 51 AC DC 3 30V CIO 2 Opl GSM Datalogger DA4 binary input Cable KD 51 4 climp CIO 2 Anl resistor e analogy metering input Cable KD 51 Switching contact CIO 2 ReO relay output NC Break contact C 20 GSM DATALOGGER DESCRIPTION 2 7 4 PWR supply connector Panel socket RJ12 1 UN Positive pole of D
46. it 12 active level on input CIO3 bit 13 active level on input CIO4 bit 14 active level on input CIO5 bit 15 power supply failure 0x1005 R actual log power supply in tens mV 0x1006 R actual log binary inputs states bit 0 input BIN1 bit 1 input BIN2 bit 2 input BIN3 bit 3 input BINA bit 6 level on output BOUT1 bit 10 level on input CIO1 bit 11 level on input CIO2 bit 12 level on input bit 13 level on input CIOA bit 14 level on input CIO5 bit 15 validity of CIO value 0x1007 R actual log precalculate value AN1 with marker 0x1008 R actual log precalculate value AN2 with marker 0x1009 R actual log upper 16 bits CNT1 0x100A R actual log lower 16 bits 0x100B R actual log actual frequency CNT1 0x100C R actual log average frequency CNT1 0x100D R actual log minimal frequency CNT 1 0x100E R actual log maximal frequency CNT1 0x100F R actual log upper 16 bits CNT2 0x1010 R actual log lower 16 bits CNT2 0x1011 R actual log actual frequency CNT2 0x1012 R actual log average frequency CNT2 0x1013 R actual log minimal frequency CNT2 0x1014 R actual log maximal frequency CNT2 37 38 GSM DATALOGGER DESCRIPTION ama la loenn 0x1015 actual log line voltage in tens mV 0x1016 R actual log station temperature in decimals C 0x1017 R actual log
47. knob on the collar outside the box for the sensor right of him Infrasenzor attached oblique projections on its upper edge of the upper edge of the box and meter enclose back of the sensor down into the right position to meter Turn the blue plastic collar black head to the meter to the right will deliver the sensor that is recessed locking collar meter fits into recess at the bottom of the sensor 5 The cover cover up back herewith stop crossluminance to sensor When removing do everything in reverse order ie turning the collar on the left trigger the sensor the fork up and get away from the upper edge of the meter box REFERENCES AND LINKS 4 7 References 1 Conel s r o Application CGU Server 2004 2 Conel s r o ARNEP Protocol description 2005 3 Conel s r o RADWIN Programme for control AGNES 2008 4 Conel s r o CIO 2 Users manual 2008 8 Links to related products of the manufacturer Related products and materials with a reference can be found on the manufacturer s website Conel company www conel cz There are another links on Siemens company website MC39i module www siemens de www siemens com 8 1 Systems AGNES Advanced GPRS Network System represents a solution for private data network structures for industrial applications and technological systems 8 2 Protocols AGNEP Advanced GPRS Network Protocol one of the AGNES system protocols 8 3 Software RADWIN
48. l on input BIN3 bit 3 active level on input BINA bit 4 analogy input upper limit overrun AN1 bit 5 analogy input lower limit overrun AN1 bit 6 analogy input upper limit overrun AN2 bit 7 analogy input lower limit overrun AN2 bit 8 limit frequency overrun CNT1 bit 9 limit frequency overrun CNT2 bit 10 active level on input CIO1 bit 11 active level on input CIO2 bit 12 active level on input CIO3 bit 13 active level on input CIO4 bit 14 active level on input CIO5 bit 15 power supply failure DCVoltage power supply in tens mV 2 bytes higher first BIN binary inputs states 2 bytes higher first bit 0 level on input BIN1 bit 1 level on input BIN2 bit 2 level on input BIN3 bit 3 level on input BINA bit 6 level on output BOUT1 bit 10 level on input CIO1 bit 11 level on input CIO2 bit 12 level on input CIO3 bit 13 level on input CIO4 bit 14 level on input CIO5 bit 15 value validity CIO DCVoltage ACVoltage Temperature and CIO1 to CIO5 AN1 analogy input value AN1 2 bytes higher first with marker AN2 analogy input value AN2 2 bytes higher first with marker 1 counter status CNT1 4 bytes higher first CNT1FAct counter actual frequency CNT1 2 bytes higher first CNT1FAvg counter average frequency 1 2 bytes higher first CNT1FMin counter minimal frequency CNT1 2 bytes higher first CNT1FMax
49. message check sum 1 byte The DA4 addresses space Address Length Access Description 0x0200 1 AN binary output control LE JL 0x0500 4 AN counter status set up CNT1 ossium Vacca 0x0600 4 AN counter status set up CNT2 n xj 0x1000 4 R actual log ID 0 1004 4 R actual log Time 0 1008 2 R actual log Alarms 0 100 2 R actual log DCVoltage Ox100C 2 R actual log BIN Ox100E 2 R actual log AN1 0 1010 2 R actual log AN2 0x1012 4 R actual log CNT1 0 1016 2 R actual log CNT1Freq 0x1018 2 R actual log CNT 1FreqAvg 0x101A 2 R actual log CNT1FreqMin Ox101C 2 R actual log CNT 1FreqMax Ox101E 4 R actual log CNT2 0x1022 2 R actual log CNT2Freq 0x1024 2 R actual log CNT2FreqAvg 0x1026 2 R actual log CNT2FreqMin 0x1028 2 R actual log CNT2FreqMax 0 102 2 R actual log ACVoltage 0x102C 2 R actual log Temperature 0 102 2 R actual log CIO1 0x1030 2 R actual log ClO2 31 32 GSM DATALOGGER DESCRIPTION fAdaress Length Access Description 00 0x1032 2 R actual log 0 1034 2 R actual log 4 0x1036 2 R actual log CIO5 0x1038 8 R actual log reservation ad 0 1040 64 R 2 log an a E 9 9 0x1080 64 R 3 log SSE m
50. mmand meaning Serving Cell ARFCN Absolute Frequency Channel Number of the BCCH carrier rs RSSI value 0 63 RSSI Received signal strength indication dBm receiving level of the BCCH carrier in dBm PLMN PLMN ID code LAC location area code cell cell ID NCC PLMN colour code BCC base station colour code PWR maximal power level used on RACH channel in dBm RXLev minimal receiving level in dBm to allow registration C1 coefficient for base station selection Dedicated channel tem chann ARFCN Absolute Frequency Channel Number of the TCH carrier Note lt chann gt h indicates frequency hopping TS timeslot number timAdv timing advance in bits PWR current power level dBm receiving level of the traffic channel carrier in dBm Q receiving quality 0 7 ChMod channel mode S HR Half rate S FR Full rate S EFR Enhanced Full Rate 67 GPRS SIGNAL 5 6 AT MONP command meaning Hem Description Chann Absolute Frequency Channel Number of the BCCH carrier rs RSSI value 0 63 RSSI Received signal strength indication dBm Receiving level in dBm PLMN PLMN ID code BCC Base Station colour code C1 coefficient for base station selection C2 coefficient for base station reselection GPRS receive signal strength measuring Connected 4292031 m Private network address 8615 User interface address Port 1 gt 8 1 Port 2 14 Port 3 Serving Cell I Dedicated chann
51. module Full duplex counter input permitting according to firmware configuration in XC CNT module Coefficient for flow calculation calibration Flow upper limit of signal alarm Time after which must be overrun flow upper limit to alarm signal Time after which will zero momentary flow if input status is unchanged Permitting of the overrun limit alarm invoking Binary output permitting firmware configuration in module according to XC CNT Logical level to which is return output after power supply failure Automatic injector control according to firmware in XC CNT module Impulses number on BIN1 CNT1 after it is created impulse on output permitting configuration input Created impulse length Permitting of alarm elicitation behind active level Permitting of alarm elicitation behind active level Setting of sending information SMS see the chapter 3 2 both XC CNT module analogy inputs are sampling at once it is use smaller from set sample period and bigger from set measuring circuit switch time on 56 CONFIGURATION SETTING 4 2 External protocol XC CNT configuration The external protocol XC CNT configuration enables set informations SMS sending parallel with set protocol in configuration on the PORT2 The SMS are sent at alarms on binary counter and analogy inputs on CIO or at power supply fail It can send the SMS up to six telephone numbers when it is possible independent define o
52. mplaints procedure relates to the purchased products This complaints procedure does not relate to the services provided Guarantee period of the products Guarantee period of 24 months from the date of purchase is provided for the device source antenna data cable and possible accessories The date of purchase is at the same time date of takeover Registering a claim It is necessary to register your claim at the vendor where the subject of the complaint has been purchased The customer shall present duly filled warranty and the complete subject of the complaint Subject of the complaint shall be presented in a condition adequate to that at the moment of purchase Caution The vendor is not responsible for keeping default settings or data saved in the subject of the complaint The customer is obliged to clarify the defect or how it is displayed and what claim he intends to register Processing the complaint The vendor shall provide a free remedy depending on particular conditions or replace the subject of the complaint for a new product or settle the matter in another manner in compliance with the Civil Code and the Act on consumer s protection As of the moment the claim is registered by the customer and the subject ofthe complaint is taken over by the vendor the guarantee period stops running The guarantee period continues on the date of takeover of the repaired subject of the complaint or replaced faultless product by the custom
53. n be maximum 1 5 m if length of data cables exceeds 1 5 m or in the event of the cable leads towards the switch board we recommend to use fit over voltage protectors surge suppressors with data cables they mustn t carry cables with reticular tension 230 V 50 Hz all signals to sensors must be twisted pairs 47 GSM DATALOGGER DESCRIPTION e sufficient space must be left before individual connectors for handling of cables e for correct function of the modem we recommend to use in switch board earth e bonding distribution frame for grounding of power supply of modem data cables and antenna e in case of optical sensors usage we recommended properly close covers of a sensors because of overload by surrounding light this case may result in wrong measurement e e the circuit diagram of the modem is on the following pictures Lightning arrester optional PWR circuitry see chapter 2 7 4 PORT2 circuitry see chapter 2 7 2 PORTI circuitry see chapter 2 7 1 48 GSM DATALOGGER DESCRIPTION 2 24 Product marking Communications GSM GPRS Protocol MODBUS Protocol RDS 92 nm Protocol IEC 60870 5 104 Other the customers specification EB Communications GSM SMS Protocol SMS1 M Serial interface M BUS HW interface inputs and outputs withs configuration Input AN1 analogue Input AN1 disabled Input AN2 analogue Input AN2 disabled In
54. n t accessible It is possible him easily put through with control centre where it is possible adjust characteristics switch GSM Datalogger DA to the online mode or also observe state of given object The GSM Datalogger DA4 sends messages about technology status and log history in setting time With dispatching or next equipment the DA4 communicates by inbuilt MC39i modem of the SIEMENS company with GSM GPRS choice or SMS mode The GSM Datalogger DA4 sends warning messages at time for example at settings limits overrun flow overrun etc In case that it isn t data to send the GSM Datalogger DA4 is in sleep mode this is easy in term of battery energy saving GSM Datalogger DA4 is a wireless data transmission device The GSM Datalogger DA4 is one of the basic elements of AGNES GPRS system The system AGNES characteristics are described in reference 1 GSM GPRS infrastructure is used for the wireless communication as a line layer ARNEP protocol is implemented above the line layer The protocol ARNEP is described in reference 2 On its basis the modules create virtual private data network where data can be transferred between user devices via any protocols One may simply imagine the GSM Datalogger DA4 as a protocol converter between the user device PLC automatic PC data terminal etc and GSM GPRS infrastructure of a mobile network operator In fact the device is much more complicated as it provides the user with possibility to communi
55. n which telephone number will send alarms The every alarms can has a name Sent SMS has form Object name Alarm issue termination name Alarm name where the items are from itself separated by space and every item can has maximal 80 characters The al SMS can has maximal 160 characters In case of item Alarm issue termination name undefined is send alarm issue only Attention For saving of SMS sending settings is important use the database or enter interface address on PORT2 the interface address configuration is in function Configuration in Addresses tap After parameter select for example Enable sending in left part of protocol configuration is in right part editable field where is possible parameter editing The parameter Transmition limitation s set time after which it wait than the information SMS will send This parameter is efficient set in cases when it isn t desired sending of the few same information SMS e g during oscillating of the switch on the binary input Maximal value of this parameter is 255 s External protocol configuration El Port2 Name of protocol E Information SMS Enable of SMS sending Enable sending no 4 mo Transmition limitation s 0 Set of time which it wait Phone number 1 Enable sending than the information Editable field SMS message will send Phone number 2 Phone number 3 Phone number 4
56. ogger DA4 signals measuring e Measuring the supply voltage Another two signals are measured GSM Datalogger DA4 The first is called DC SUPLY it is an internal one and describes supply voltage on GSM Datalogger DA4 brackets The measuring range is 0 to 30 V The supply voltage value has an effect over GSM Datalogger DA4 function in case it falls below the set value the GSM datalogger is disconnected because its proper function is not safeguarded and discharge current of reserve accumulator is reduced The second one is INAC AC SUPLY linked to the supply connector see the supply connector description The measuring range is 0 to 30 V The signal is protected against overvoltage by a protection element that blocks voltage in excess of 33 V INAC is designed for measuring of network supply voltage presence The change of the value is recorded in GSM Datalogger DA4 statistics as a failure and rise of supply voltage 230 V Beware it is impossible to link 230 v supply voltage directly to the input 17 GSM DATALOGGER DESCRIPTION e Measuring internal GSM Datalogger DA4 temperature To ascertain proper GSM module function temperature is measured inside GSM Datalogger DA4 In case the temperature exceeds the set control value the GSM module is disconnected from the supply voltage as proper function is not guaranteed over this temperature and at the same time it is protected against heat damage e Measuring DSR outpu
57. op of the program window is main menu In right under main menu is function list which do on GSM Datalogger More informations is in help for this program 2 Radwin DA4 dbr 8615 s File Command Servi 5 5 GPRS network 4 100 2 011 0 ll Interface addressing 1 Confiquration CtrlF1 amp Station configuration Item index all items Stationname DA4 1 5 Basic Portl ARNEP Port2XC CNT CIO Date Time Modem property Port2 XC CNT Remove Relay Table Choice function Select parameter expert Number of missing and added parameters 6 Com1 38400 8 N 1 CGU04 CGU04i DA4 4292001 COMI NA 8615 IA 104 FW 071031 Out of map 0 13 45 04 52 CONFIGURATION SETTING 4 1 The basic configuration of the GSM Datalogger DA4 The basic configuration is in Function list where it is choose function Configuration shortcut Ctrl F1 After double click on parameter it is possible value change Station configuration 5 Item index all items Station name Connected 4292037 Self Addresses Basic Porti ARNEP Tj cio Date Time Modem property Firmware type Dataloager Datalogge Firmware configuratior 1a2a3c4b 1n2n3n4n5n5n t Firmware version 070520 Communication protocol SMS 80592 Download configuration from server NO 0
58. p mode then data will read continuously Period after which main power supply is switch on by XC CNT module Parameter will have mean if it is need supplement CIO values to measured samples with defined period Period which the read data are send CONFIGURATION SETTING Retry communication period Max transmit retry Online time BINx allow BINx active level BINx alarm on active level ANx allow ANx sample period ANx switch meas circuit on time ANx sample number for averaging ANx multiplicative constant ANx additive constant ANx hysteresis ANx lower limit ANx upper limit ANx lower limit overrun alarm ANx upper limit overrun alarm CNTx allow 55 0 255 min 1 5 0 255 min YES NO Log1 LogO YES NO YES NO 0 65535 sec 16 375 msec 1 16 1 65535 32768 32767 0 32000 32768 32767 32768 32767 YES NO YES NO YES NO Period isn t comply only in case that it is record alarm which it is send at once Period which the read data will resend if data aren t permit or it isn t exhaust maximal attempt number Maximal attempts number of the data send to target modem Time which main modem power supply will switch on Binary input permitting according to firmware configuration module Logical level which it is signals alarm Permitting of al
59. period min OxFO33 1 R W data sending attempts number 0 034 1 R W active mode time min OxF035 1 R W quiescent level of binary outputs e bit O output OUT1 OxF036 2 R W dispenser impulse number on input BIN1 CNT1 OxFO38 1 R W dispenser impulse lenght on output OUT1 1 8 sec OxFFOO 2 AN time on which the DA4 will stay on receiving yet CIO value validity is indicates by BIN array 15th bit 2 15 XC CNT MODBUS RTU master protocol description The DA4 automatically sends all logs to dispatching by message 0x10 code entry values to more registers after defined time and awaits appropriate confirmation from dispatching DA4 logs storage request 2 o FC RN RC Reden i Address 34 35 GSM DATALOGGER DESCRIPTION i Alarms pcvoege BN am 2 4 2 2 2 2 2 CNT1 CNT1FAct CNT1FAvg CNT1FMin CNT1FMax CNT2 CNT2FAct CNT2FAvg CNT2FMin CNT2FMax ACVoltage clot CIO2 CIO3 4 5 Address dispatching address 1 byte FC function code 2 bytes higher first 0x10 always RN referential number 2 bytes higher first It specifies the data space start in which the data are written Every master have dedicated space of the 256 registers where the first space register has number equal 256 multiple of the master address RC registers number 2 bytes higher first BC bytes number 1 bytes RecLen log length 1 byte 8 bytes e
60. put BIN1 binary Input BIN1 counter Input BIN1 Input BIN2 bidirectional counter Input BIN1 disabled Input BIN2 binary Input BIN2 counter Input BIN1 Input BIN2 bidirectional counter Input BIN2 disabled Input BIN3 binary Input BIN3 disabled input BINA binary input BIN disabled Output OUT1 enabled Output OUT1 injector by counter at BIN1 Output OUT1 disable Basic mounting IP20 Pillar SIS 1h to field applications small switch board 54 Switching board IP54 on post or wall Big switch board IP54 Pb accumulator eff life min 10 years charging 2 years MI Lithium battery eff Life 4 years for outdoor applications Power supply from street lighting Power supply from LV low voltage Examples GMV 1n2n3c4n5n6n70 SO or SSM RL 49 2 25 GSM DATALOGGER DESCRIPTION GSM Datalogger DA4 production label DA 4 vea C FME 900 1800MHz 2 1W Conel 1xRS232 ped 02 cg 2 26 Production label of interfaces PORT2 50 XC Expansion port CNT ver 4 www conel cz E ui Pin Ig o pins cwn in i ana an nalog inp www conel cz 2007 SWITCH BOARDS 3 Switch boards The GSM Datalogger DAA is possible place to few switch boards
61. quality is good 5 2 Good quality GPRS requirements e serving cell signal better than 90dBm e adjacent cell signal below 12dB to serving cell otherwise risk of interference e if many cell with close signal levels 3 dB be in danger of reselection switching between cells that caused bad time response or communication interruption In this case is needed to extend difference between signals 5 3 Example station received these signals Serving Cell Dedicated channel chann rs dBm PLMN LAC cell NCC BCC PWR RXLev C1 I chann TS timAdv PWR dBm Q ChMod 107 18 77 23001 352A 6 91 5 6 33 106 29 No connection chann rs dBm PLMN BCC C1 C2 76 18 78 23001 1 28 28 106 17 79 23001 3 27 27 33 17 80 23001 7 26 26 77 14 85 23001 3 21 21 30 14 85 23001 1 21 21 What does it means e module received cell 6E91 on channel 107 with level 77dB e there is possible to interference from channel 106 with level 79dBm e there is possible to reselection between channels 76 106 107 and 33 its level is so close Way to fix Change type from unidirectional to directional e g yagi direction or place of antenna After changing you must do measurements again 66 GPRS SIGNAL 5 4 Method of signal measurements Run Radwin function GPRS receive signal strength measuring Answer is information about serving and remaining cells Output is from AT commands AT MONI and AT MONP from GPRS module 5 5 AT MONI co
62. sample period on analogy inputs is adjustable in range 0 65535 seconds At value 0 it is sampling once per second and measurement circuit is permanent switch on At sampling it is possible to set time of measurement circuit switch from 16 ms to 375 ms On the basis of signal change about bigger value then setting upper lower limit is generated alarm This alarm at defined settings of the GSM Datalogger 4 generates message with values of the all active signals and send it to defined target The alarm end is on the basis of bigger lower signal change about set hysteresis than is upper lower limit 2 7 2 2 Binary input The binary input is potential free contact which is 8 x per second sampling and sampling time is 1 64 seconds For binary inputs is possible to set active level either log 0 or log 1 Choice active level can generate alarm 2 7 2 3 Counter input The counter inputs are meters maximal to 100 Hz The ratio impulses on input can be maximal 1 10 that means the impulse width mustn t be lower than 1 10 signal period At lower width it isn t guaranteed the true evaluation of the metered signal For metering of small frequencies about mHz it is important set the multiplicative constant which multiples metering frequency flow because of true evaluation On the basis of signal change about bigger value then setting frequency upper limit is generated alarm Alarm is possible send after time after which upper limit must be overrun
63. signals to user device It is not appropriate and often even possible to connect I O interface signals directly to the user device In order to measure currents resistance and large voltage it is necessary to mount series of circuits before signals that will adjust the values measured to a voltage within O to 5 Vrange and at the same time protect the inputs from interference and overvoltage Similarly serial electric circuits should be mounted to control power parts of the user device as the transistor with open collector is able to switch current up to 500 mA and voltage up to the value of GSM Datalogger DA4 supply voltage 18 GSM DATALOGGER DESCRIPTION Supplementary CIO modules are designed for practical I O signal use establishing an interface between the user device and signals tye Description CIO ANI2 Analogue Analogue differential input for small voltage current and resistance input measuring It includes differential amplifier with adjustable power 1to 10000 Exact current source 0 1 to 3 mA can be used to measure resistance Configuration of the input signals amplification and current source is carried out through resistance net Presence of the input signal relevant to A D converter working range is signalled by LED on the front panel Input circuits are protected against short time overvoltage by suppressors and against the long time one by reverse fuse CIO OPI 2 Binary One galvanically separated di
64. t with marker OxF010 2 R W AN1 hysteresis value with marker 0xF012 2 R W AN1 lower limit with marker OxF014 2 R W AN1 upper limit with marker OxF016 2 R W AN2 sampling period sec OxF018 2 R W AN2 multiplicative constant with marker 1 2 R W AN2 aditive constant with marker OxFO1C 2 R W AN2 hysteresis value with marker 0xF01E 2 R W AN2 lower limit with marker OxF020 2 R W AN2 upper limit with marker OxF022 2 R W CNT1 multiplicative constant OxF024 2 R W CNT1 upper limit OxF026 2 RAN 1 limit overrun time sec 0 028 1 RAN CNT1 time for measuring reset sec OxF029 2 R W CNT2 multiplicative constant OxFO2B 2 R W CNT2 upper limit OxFO2D 2 R W CNT2 limit overrun time sec OxFO2F 1 R W CNT2 time for measuring reset Sec OxF030 1 R W bits 7 3 1 measuring circuit switch time on e 0 1 64 sec e 1 2 64 sec ton e 30 31 64 sec bits 2 0 AN1 samples number for averaging e 0 1 sample e 1 2 samples e 2 4samples 33 GSM DATALOGGER DESCRIPTION Address Length Access Description 4 8samples e 5 16 samples OxF031 1 R W bits 7 3 AN2 measuring circuit switch time on e 0 1 64 sec e 1 2 64 sec e 30 31 64 sec bits 2 0 AN2 samples number for averaging e 0 1 e 1 2 samples e 2 4 samples e 4 8 e 5 16 samples OxF032 1 RAN communication repeat
65. t signal level DSR signals on separate user interfaces are output signals from GSM Datalogger DA4 viewpoint They are not controlled form the inside Individual signals are linked through 330 Ohm resistors 2 7 8 5 I O signals parameters Signal Measuring Resolution Sampling Average Hysteresis Control level name from samples 01 5 0 to 5 10 100 Optional Optional Optional 1 128 0 255 2 7 3 6 Settings CIO parameters e Activation of CIO signals CIO signals have an activity feature In case a signal is active its value is recorded in CIO status report Only when the active signal changes CIO may automatically generate a corresponding report In case a signal is not set as active no matter how big a change it will not generate change feature e CIO communication parameters The CIO block works in any GSM Datalogger DA4 independently from user interface settings CIO communication parameters settings decide whether the information on measured signal values will be sent to a remote user interface Regarding communication the CIO block operates in two modes passive or active When passive the CIO sends measured information only at the request of remote station When active the reports are generated on the basis of changes of measured active signals or on regular basis according to the period set The method of requesting CIO values is described in ARNEP protocol 2 7 3 7 Connecting CIO
66. tem that processes simultaneous tasks Thus parallel operation of all external interfaces of the datalogger is maintained The microprocessor is connected through serial interface to MC39i OEM module and controls the communication via GSM GPRS Towards a user it is connected on serial interfaces RS 232 PORT1 interfaces CNT PORT2 for direct signals processing circuits and CIO interface GSM DATALOGGER DESCRIPTION In case other than RS232 interface device needs to be connected e g 5485 422 it is possible to connect level converter to the serial port according to particular application The microprocessor can control such external converter The microprocessor further manages numerous functions of servicing diagnostic and installation purposes Data transfer statistics separate port communications power blackouts voltage of the reserve supply GSM Datalogger DA4 temperature and other important information everything is recorded in the microprocessor s memory GSM Datalogger DA4 settings are saved in FLASH EEPROM memory Service SW RADWIN is designed for GSM Datalogger DA4 configuration The description of programme RADWIN is in reference 3 2 4 3 User interface protocols There are numerous industrial protocols implemented on the PORT 1 interface e ARNEP UI MBUS MODBUS transparent LINE AT modem SAUTER IWKA SBUS RADOM RDS CONEL On the PORT2 interface are implemented protocols e XC CNT RDS92 XC CNT
67. ter protocol 34 2 16 XC CNT MODBUS RTU slave protocol 36 2 17 60870 5 104 protocol 39 2 18 XC CNT mylO protocol 41 2 19 XC CNT SMS protocol 22 eene n nene 41 2 20 Standard accessories 1 42 2 21 43 2 22 Assembly procedure ied eee Ped nete eee irte rcp reduce e eee i ERU 44 2 23 Mechanical external dimensions and mounting recommendations 46 2 24 Prod ct iriarking rte re ese dere e Rr RR o RD Re rh RR eaa eere Ta EUH 49 2 25 GSM Datalogger DA4 production 50 2 26 Production label of interfaces 8 50 3 SWITCH 8 2224 51 4CONFIGURATION tirer ates 52 CONTENTS 4 1 The basic configuration of the GSM Datalogger 4 en 53 4 2 External protocol XC CNT
68. tforms Service cable is designed for GSM Datalogger DA4 connection After service cable data cable KD 2 and jump service SEPRO is connected to any serial user interface RS232 and service SW runs on a connected PC it is possible to execute not just all the needed GSM Datalogger DA4 settings but service interventions in the data network as well Data cable KD 2 GSM Datalogger DA4 settings can be done remotely via GPRS Remote configuration access is protected by password The enter password it is possible only after straight connect by service cable 2 10 Service cable GSM Datalogger DA4 PC connection cable with DCR and GND signals connected at 100 Ohm It is made from normal data cable KD 2 by adding service interconnection SEPRO It is necessary to interconnect all eight signals between GSM Datalogger DA4 and PC See RJ45 connectors description in chapter 2 7 1 Service interconnection SEPRO to the data cable 25 GSM DATALOGGER DESCRIPTION 2 11 XC CNT protocol To enable datalogger functionality must be selected protocol XC CNT on interface PORT 2 This protocol is used to read internal datalogger buffer of expander board XC CNT Data is archived to backuped modem RAM sending by one of implemented protocols and control of main power supply in power management mode 2 12 Available communication protocols Using XC CNT protocol parameter RF channel protocol can be choosed a number of communication protocols
69. ut CIO3 bit 13 level on input 4 bit 14 level on input CIO5 bit 15 value validity CIO DCVoltage ACVoltage Temperature a CIO1 to CIO5 AN1 analogy input value AN1 2 bytes higher first with marker AN2 analogy input value AN2 2 bytes higher first with marker 1 counter status CNT1 4 bytes higher first CNT1FAct counter actual frequency CNT1 2 bytes higher first CNT1FAvg counter average frequency 1 2 bytes higher first CNT1FMin counter minimal frequency CNT1 2 bytes higher first CNT1FMax counter maximal frequency CNT1 2 bytes higher first 2 counter status CNT2 4 bytes higher first CNT2FAct counter actual frequency CNT2 2 bytes higher first CNT2FAvg counter average frequency CNT2 2 bytes higher first CNT2FMin counter minimal frequency CNT2 2 bytes higher first CNT2FMax counter maximal frequency CNT2 2 bytes higher first ACVoltage line voltage in tens mV 2 bytes higher first Temperature station temperature in decimals C 2 bytes higher first with marker CIO1 analogy input value CIO1 2 bytes higher first CIO2 analogy input value CIO2 2 bytes higher first analogy input value 2 bytes higher first 4 analogy input value CIO4 2 bytes higher first CIO5 analogy input value CIO5 2 bytes higher first 16 bit check sum of data packet 2 bytes
70. very log contents ID to Alarms array 16 bytes every log contents ID to AN2 array 28 bytes every log contents ID to CNT1FMax array 40 bytes every log contents ID to CNT2FMax array 54 bytes every log contents ID to CIO5 array ID log number 2 bytes higher first Time time stamp seconds number from 1 1 1970 4 bytes higher first Alarms alarms actual state bits array 2 bytes higher first bit 0 active level on input BIN1 bit 1 active level on input BIN2 bit 2 active level on input BIN3 bit 3 active level on input BINA bit 4 analogy input upper limit overrun AN1 bit 5 analogy input lower limit overrun AN1 bit 6 analogy input upper limit overrun AN2 bit 7 analogy input lower limit overrun AN3 bit 8 limit frequency overrun CNT1 bit 9 limit frequency overrun CNT2 bit 10 active level on input CIO1 bit 11 active level on input CIO2 bit 12 active level on input CIO3 bit 13 active level on input CIO4 bit 14 active level on input 5 bit 15 power supply failure DCVoltage power supply in tens mV 2 bytes higher first BIN binary inputs states 2 bytes higher first bit 0 level on input BIN1 bit 1 level on input BIN2 bit 2 level on input BIN3 bit 3 level on input BINA bit 6 level on output BOUT1 bit 10 level on input CIO1 GSM DATALOGGER DESCRIPTION bit 11 level on input CIO2 bit 12 level on inp
71. voltage B1 bin B2zbin B3zbin B4 bin A1 analog A2zanalog C1 count freqact freqavg freqmin freqmax C2zcount freq freqavg freqmin freqmax YYYY year 1900 2036 MM month 01 12 DD day 01 31 hh hours 00 23 mm minutes 00 59 SS seconds 00 59 alarms alarms status in hexadecimal format 0000 FFFF bit 0 active level on input BIN1 bit 1 active level on input BIN2 bit 2 active level on input BIN3 bit active level on input BINA bit 4 analogy input upper limit overrun AN1 bit 5 analogy input lower limit overrun AN1 bit 6 analogy input upper limit overrun AN2 bit 7 analogy input lower limit overrun AN2 bit 8 limit frequency overrun 1 bit 9 limit frequency overrun CNT2 bit 10 active level on input CIO1 bit 11 active level on input CIO2 bit 12 active level on input CIO3 bit 13 active level on input CIO4 bit 14 active level on input CIO5 bit 15 power supply failure voltage power supply in volts 0 00 21 45 bin binary input status 0 1 analog precalculate analogy input value 32768 32767 41 GSM DATALOGGER DESCRIPTION count counter status 0 4294967295 freqact actual frequency 0 65535 freqavg average frequency 0 65535 freqmin minimal frequency 0 65535 freqmax maximal frequency 0 65535 Note The date time alarms status and power supply are sends in SMS always Other values
72. y in receive yet In case of need the dispatching have possibility to send message with 0x06 code data request or 0x08 code data logging request for snapping or the DA4 parameters set up Request about the DA4 logs storage Address Length Code PIN Reden 2 4 2 2 2 2 ID Time Alarms DCVoltage BIN AN1 2 4 2 2 2 2 AN2 CNT1 CNT1FAct CNT1FAvg CNT1FMin CNT1FMax CNT2 CNT2FAct CNT2FAvg CNT2FMin CNT2FMax ACVoltage 5 i 42 CIO1 8 to 54 8 to 54 2 log Temperature CIO2 CIO3 1 4 27 GSM DATALOGGER DESCRIPTION Type RDS92 message type 1 byte 0x44 always Address station interface address 1 byte Length RDS92 message data part length 2 bytes lower first Code request code about the DA4 logs storage 1 byte 0x30 always PIN packet identification number 1 byte RecLen log length 1 byte 8 bytes every log contents ID to Alarms array 16 bytes every log contents ID to AN2 array 28 bytes every log contents ID to CNT1FMax array 40 bytes every log contents ID to CNT2FMax array 54 bytes every log contents ID to CIO5 array ID log number 2 bytes higher first Time time stamp seconds number from 1 1 1970 4 bytes higher first Alarms alarms actual state bits array 2 bytes higher first bit 0 active level on input BIN1 bit 1 active level on input BIN2 bit 2 active leve
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