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User manual - Infopulsas

1. COUNTER BINARY INPUTS CONNECT Loes zeg 17 AN ANALOGUE INPUTI ONLY AGAINST GROUND Come is ANALOGUE INPUT2 CDI L Pi 12VDC 12VDC WAN X A 1 SIGNAL TERMINAL BLOK 9 ER 2x COUNTER INPUT d S 15 EC OPTOSENSOR 150 12 t T SENSUS WATER METER BINARY INPUTS AND OUTPUTS VIA RELAY INTERFACE 8 i i Wi ER S 2x ANALOGUE SENSOR CURRENT LOOP 4 20 CNT DESCRIPTION 2 6 XC CNT protocol To enable datalogger functionality must be selected protocol XC CNT on interface PORT 2 This protocol is used to read internat 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 7 Available communication protocols Using XC CNT protocol parameter RF channel protocol can be choosed a number of communication protocols List of protocols RDS92 e data sending by message code 0x30 remote XC CNT configuration remote XC CNT counters settings digital output remote control data logger reading when power management is not active e maximum message length 2048 1000 for GPRS MODBUS RTU master e data sending by message code 0x10 write registers e maximum message length 255 MODBUS RTU slave e data logger reading by message code 0x03 read registers e maximum message length 255 B MODBUS AS
2. EE 30 2 18 Production Jabel 30 3 LINKS TO RELATED PRODUCTS OF THE 31 3 Products e TE 31 4 COMPLAINTS 32 5 WARRANT EE 34 CONTENTS Symbols used N Danger important notice which may have an influence on the user s safety or the function of the device 6 Attention notice on possible problems which can arise in specific cases 4 Information notice information which contains useful advices or interest notice Conel limited Sokolska 71 562 04 Usti nad Orlici Czech Republic Issue in CZ 11 01 08 SAFETY INSTRUCTIONS 1 Safety instructions Please observe the following safety instructions e The expansion port 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 expansion port and breach of applicable laws Use of unapproved adjust
3. 2 log Ses SS See 0x1200 R 3 log 7 wp qp R SS E R 224 log rE EIE OxF000 AN Samples stores period min 24 CNT DESCRIPTION OxF001 AN Allowed bit 0 active level on input BIN1 bit 1 active level on input BIN2 bit 2 active level on input BINZ bit 3 active level on input BINA bit 4 analogy input AN1 lower limit overrun bit 5 analogy input AN1 upper limit overrun bit 6 analogy input AN2 lower limit overrun bit 7 analogy input AN2 upper limit overrun bit 8 limit frequency CNT1 overrun bit 9 limit frequency CNT2 overrun OxF100 AN Binary inputs negative logical e bitO input BIN e bit 1 input BINZ e bit 2 input BINZ e bit3 input BINA OxF200 AN Binary outputs normal level e output OUT1 OxF201 AN Feeder impulse number on input BIN1 CNT1 OxF202 AN Feeder impulse length on output OUT 1 1 8 sec OxF 300 AN AN1 samples period sec OxF301 AN AN1 multiplicative constant with sign OxF302 AN AN1 additive constant with sign OxF303 AN AN1 hysteresis value with sign OxF304 AN AN1 lower limit with sign OxF305 AN AN1 upper limit with sign OxF306 AN bits 7 3 AN1 metering circuit switch time 0 1 64 sec 1 2 64 sec AN1 samples number for average 0 1 sample 1 2 samples 2 4 samples 4 8 samples 5 16 samples 25 CNT DESCRIPTION OxF4
4. actual log CNT 1 0x1016 2 R actual log CNT 1Freq 0x1018 2 R actual log CNT1FreqAvg 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 0x102A 2 R actual log ACVoltage 0x102C 2 R actual log Temperature Ox102E 2 R actual log CIO1 0x1030 2 R actual log CIO2 14 15 CNT DESCRIPTION Address Length Access Description 0x1032 2 R actual log 0x1034 2 R actual log 4 0x1036 2 R actual log CIO5 0 1038 8 R actual log reservation Reg 0x1040 64 2 log Reese e usw 0 1080 64 R 3 log En ee eS ACA A A IR OxEFCO 64 R 896 log De SS OES 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 0 005 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 BIN
5. 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 CRC 16 bit check sum of data packet 2 bytes 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 DN referential number 2 bytes higher first RC registers number 2 bytes higher first CRC 16 bit check sum of data packet 2 bytes 2 11 XC CNT MODBUS HTU 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 2 Adaress Access Description 00000 0x1000 R actual log
6. 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 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 BOUT 1 bit 10 level on input CIO1 CNT DESCRIPTION bit 11 level on input CIO2 bit 12 level on input 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 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 1 2 bytes higher first CNT1FMax counter maximal frequency CNT1 2 bytes higher first CNT2
7. from dispatching DA4 logs storage request i 2 2 i e FC RN RC Reden Address 17 18 CNT DESCRIPTION i Alarms pcvottage BN am 2 4 2 2 2 2 AN2 CNT1 CNT1FAct CNT1FAvg CNT1FMin CNT1FMax CNT2 CNT2FAct CNT2FAvg CNT2FMin CNT2FMax ACVoltage CIO1 CIO2 CIO3 04 5 Address dispatching address 1 byte FC function code 2 bytes higher first 0x10 always DN 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 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 level on input BIN3 bit 3 active level on input BINA bit 4 analogy input upper limit overrun AN1
8. CNT MODBUS ASCII slave protocol is communication protocol of firmware the expansion port CNT board By the help of this protocol the station configures board software reads her buffer controls binary output and switch main station supply off The expansion port CNT communicates by this protocol with bit rate 9600 bit s 8N1 Address space Address Description 0x0000 R Firmware type 0x0001 R Upper 16 bits of firmware version 0x0002 R Lower 16 bits of firmware version 0x0003 R Supports firmware characteristics e bit 0 analogy input AN1 e bit 1 analogy input AN2 e bit 2 counter input CNT1 e bit 3 counter input CNT2 e bit 4 binary input BIN1 e bit 5 binary input BIN2 e bit 6 binary input e bit 7 binary input BINA e bit 8 binary output OUT1 e bit 9 automatic feeder control e bit 10 fullduplex counter CNT1 CNT2 0x0004 R Maximal logs number in buffer 0x0005 R W Marker of log launching and alarms work 0 0006 R W Upper 16 bits of seconds number from 1 1 1970 0x0007 R W Lower 16 bits of seconds number from 1 1 1970 0x0008 R W Upper 16 bits of log actual number 0x0009 R W Lower 16 bits of log actual number 0 000 R Alarms actual status o0 4p ooo 0x0100 R Binary inputs status Lg 0x0200 R W Binary outputs status ag 0x0300 R Recalculate value of analogy input AN1 with sign 41 0 0400 R Recalcu
9. TB 1 M SP TB 1 M SP TB 1 M SP TB 1 M SP TB 1 M SP TB 1 M SP TB 1 mmm M SP TB 1 M SP TB 1 M SP TB 1 M SP TB 1 M ME TF 1 M ME TF 1 M IT TB 1 M IT TB 1 M ME 1 M ME TF 1 M ME 1 M ME TF 1 M ME TF 1 M ME TF 1 M ME TF 1 M ME TF 1 alarm active level on input BIN1 alarm active level on input BIN2 alarm active level on input BINZ alarm active level on input BINA alarm analogy input upper limit overrun AN1 alarm analogy input lower limit overrun AN1 alarm analogy input upper limit overrun AN2 alarm analogy input lower limit overrun AN2 alarm limit frequency overrun 1 alarm limit frequency overrun CNT2 input level BIN1 input level BIN2 input level BIN3 input level BINA analogy input value AN1 analogy input value AN2 counter status CNT1 counter status CNT2 counter actual frequency CNT1 counter actual frequency CNT2 counter average frequency CNT1 counter average frequency CNT2 counter minimal frequency 1 counter minimal frequency CNT2 counter maximal frequency CNT 1 counter maximal frequency CNT2 501 502 M ME TF 1 M ME TF 1 analogy input value CIO1 analogy input value CIO2 27 CNT DESCRIPTION Type Description 00000000002 503 M ME TF 1 analogy input value CIO3 504 M ME TF 1 analogy input value 4 505 ME 1 analogy input value CIO5 Ss FERE WEE 601 M ME TF 1 power supply V 602 1 l
10. confirmation block other blocks the server sends if it is need In the end the client finish connection and it start count out time to next relation 2 15 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 A alarms V voltage B1 bin B2 bin B3 bin B4 bin A1zanalog A2zanalog C1 count freqact freqavg freqmin freqmax C2 count 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 hexadecimal format 0000 FFFF bit 0 active level on input BIN bit 1 active level on input BIN2 bit 2 active level on input BIN3 bit 3 active level on input BIN4 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 ClO4 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 3
11. 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 DA4 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 4 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 4 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 CNT DESCRIPTION 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 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 4 4 Binary output The binary output is realized by transistor with open collector In inactive state
12. 00 OxF401 OxF402 OxF403 OxF404 OxF405 OxF406 OxF500 OxF501 OxF502 OxF503 OxF600 OxF601 OxF602 OxF603 OxFFFF AN2 samples period sec AN2 multiplicative constant with sign AN2 additive constant with sign AN2 hysteresis value with sign AN2 lower limit with sign AN2 upper limit with sign bits 7 3 AN2 metering circuit switch time 0 1 64 sec 1 2 64 sec AN2 samples number for average 0 1 sample 1 2 samples 2 4 samples 4 8 samples 5 16 samples CNT1 multiplicative constant CNT1 upper limit CNT1 time of limit overrun sec CNT1 time for metering reset sec CNT2 multiplicative constant CNT2 upper limit CNT2 time of limit overrun sec CNT2 time for metering reset sec Switch main supply off on set time min 2 13 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 5 TA 1 1 bit command with time 26 CNT DESCRIPTION Data points Type Description 0000000 101 102 103 104 105 106 107 108 109 110 201 202 203 204 301 302 401 402 411 412 421 422 431 432 441 442 M SP TB 1 M SP TB 1 M SP TB 1 M SP
13. 008 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 CNT 1 0x100C R actual log average frequency CNT1 0x100D R actual log minimal frequency CNT 1 0x100E R actual log maximal frequency CNT 1 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 20 CNT DESCRIPTION I XcIIc 0x1015 actual log line voltage in tens mV 0x1016 R actual log station temperature in decimals C 0x1017 R actual log 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 CIO4 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 SE SSS a SS SS SSS 0x1020 R 2 log Sa a BE 0x1040 R 3 log SSS E _ _ __ _ _ _ ____SIE OxAFEO R 1280 log CIO value validity is indicates by BIN array 15th bit 21 CNT DESCRIPTION 2 12 XC CNT MODBUS ASCII slave protocol description The XC
14. 2767 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 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 B1 1 B2 1 B3 0 1 35 A2 3527 C1 12614 4 4 3 5 29 CNT DESCRIPTION Configuration e GPRS connection establishing can disallow by entry empty APN e Incase of the SMS illegility on some telephones it is possibility switch the SMS format on 7 bit only for firmware from 16 10 2007 and older 2 16 Standard accessories 1 Compliance certificate 2 Complaint procedure 3 Warranty 4 User manual 2 17 Product marking Expansion port CNT Internal Inputs protection against overload low power mode 2 18 Production label XC CNT wm Cone Expansion port CNT ver 4 Pin description www conel cz pin mm enger pe 51207090 III 27898 Binary output Analog input 1 www conel cz 2007 30 3 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 3 1 Products CGU 04i GPRS modem UR 5 UMTS router ER 75i EDGE
15. A 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 bitO input BIN CNT DESCRIPTION Address Length Access Description e bit 1 input BIN2 e bit2 input BIN3 bit 3 input BINA OxFOOA 2 R W AN1 sampling period sec OxFOOC 2 R W AN1 multiplicative constant with marker OxFOOE 2 R W AN1 aditive constant with marker OxF010 2 R W AN1 hysteresis value with marker OxF012 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 OxF01A 2 R W AN2 aditive constant with marker 1 2 R W AN2 hysteresis value with marker 1 2 R W AN2 lower limit with marker OxFO20 2 R W AN2 upper limit with marker OxF022 2 R W CNT1 multiplicative constant OxF024 2 R W CNT1 upper limit OxF026 2 R W CNT1 limit overrun time sec 0 028 1 R W CNT1 time for measuring reset
16. CII slave e possibility of port firmware configuration IEC 60870 5 104 e data sending by telegrams type M SP TB 1 M_ME_TF_1 and M_IT_TB_1 e telegrams processing type C IC NA 1 and C CS NA 1 e Outputs control by telegrams C SC NA 1 or C SC TA 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 CNT DESCRIPTION 2 8 Recommended settings for testing Parameter Settings Sleep mode NO Samples period storing 1 min Wake up period 0 Period between 1 min communications ANx sample period 0 sec 2 9 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 stay in receive yet In case of need the dispatching have possibility to send message with 0x06 code data request or 0 08 code data logging request for snapping or the DA4 parameters set up Request about the DA4 logs storage 2 4 2 2 2 2 ID Time Alarms DCVoltage BIN AN1 2 4 2 2 2 2 AN2 CNT1 CNT1FAct CNT1FAvg 1 CNT1FMax CNT2 CNT2FAct CNT2FAvg CNT2FMin CNT2FMax ACVoltage 4 5 d Temper
17. 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 AN1 measuring circuit switch time on e 0 1 64 sec e 1 2 64 sec e 30 31 64 sec bits 2 0 AN1 samples number for averaging e 0 1 sample e 1 2 samples e 2 4 samples 16 CNT DESCRIPTION Address Length Access Description e 4 8 samples 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 s e 30 31 64 sec bits 2 0 AN2 samples number for averaging e 0 1 e 1 2 samples 2 4 samples e 4 8 e 5 16 samples 0 032 1 R W communication repeat period min 0 033 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 0O output OUT1 OxF036 2 R W dispenser impulse number on input BIN1 CNT1 0 038 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 10 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
18. WWW INFOPULSAS LT info Q infopulsas lt Conel wm Expansion port CNT USER S GUIDE on T V nm 150 9001 2001 CONTENTS Contents 4 2 CNT DESCRIPTION ME 5 2 1 Generaldescipto M e E 5 2 2 Examples of the expansion port Usades 2 08 5 2 3 Compatibility with Conel 5 0 2 00 nnns nnns 5 2 4 Technical Specifications nnne nennen enne ner 6 EE ME cA mmm 6 24 2 BNA MPU NET 6 2 4 3 Counter Immput 6 24 4 EH 7 2 5 Connector connection on the 2 2 00 1 7 2 6 XC CN T protocol eiie 9 2 7 Available communication Drotocols 9 2 8 Recommended settings for 1 2044442022 10 2 9 XC CNT RDS92 protocol description 10 2 10 XC CNT MODBUS master protocol description 17 2 11 XC CNT MODBUS slave protocol description 19 2 12 XC CNT MODBUS ASCII slave protocol descrpion 22 2 13 XC CNT IEC 60870 5 104 protocol description 26 2 14 XC CNT mylO protocol descrpton nennen nnne 28 2 15 XC CNT SMS protocol descrpton mmm 29 2 16 Standard accessories 30 2 17
19. ature 1 2 8 to 54 8 to 54 2 log 42 3 10 CNT 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 one 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 5 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 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 inp
20. ckLenX X th block length 2 bytes higher first Sum RDS92 message check sum 1 byte Answer on data request 2 wn 2 2 N 2 2 N BlockLen1 BlockAdrX BlockLenX 12 CNT 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 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 message check sum 1 byte Data loggin reguest Ww qub ow Blocktent Data BlockAdrx Blockenx Datax BN 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 BlockLen 1 first block length 2 bytes higher first Data first block data bytes BlockAarX X th b
21. eplaced 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 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 fi
22. ink voltage V 603 TF 1 station temperature C 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 AAA 2201 See output control OUT1 EE 2501 output control 1 2502 SS output control 1 2 2503 Ee output control CIO3 2504 exteri output control 1 4 2505 SE output control 1 5 2 14 XC CNT mylO protocol description The XC CNT MylO 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 XC CNT 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 28 CNT DESCRIPTION and it send answer which it has up to 3 independent blocs confirmation output set up and configuration The compulsory is only
23. late value of analogy input AN2 with sign SEEN 0x0500 R W Upper 16 bits of counter CNT1 value 22 CNT DESCRIPTION 0x0501 R W Lower 16 bits of counter CNT1 value 0x0502 R Prompt frequency CNT1 0 0503 R Average frequency CNT 1 0x0504 R Minimal frequency CNT1 0x0505 R Maximal frequency CNT 1 C 0x0601 R W Upper 16 bits of counter CNT2 value 0x0601 R W Lower 16 bits of counter CNT2 value 0x0602 R Prompt frequency CNT2 0x0603 R Average frequency CNT2 0x0604 R Minimal frequency CNT2 0x0605 R Maximal frequency CNT2 EH OxOFO00 R 0x0000 always 0 0 01 R 0x0000 always OxOF02 R Upper 16 bits of seconds number from 1 1 1970 Ox0F03 R Lower 16 bits of seconds number from 1 1 1970 Ox0F04 R Alarms status e bit 0 active level on input BIN e bit 1 active level on input BIN2 e bit 2 active level on input BINZ e bit 3 active level on input BINA e bit 4 analogy input lower limit overrun AN1 e bit 5 analogy input upper limit overrun AN1 e bit 6 analogy input lower limit overrun AN2 e bit 7 analogy input upper limit overrun AN2 e bit 8 limit frequency overrun CNT1 e bit 9 limit frequency overrun CNT2 OxOF05 R Binary inputs status e bitO level on input BIN e 1 level on input BINZ e bit 2 level on input BINZ e bit 3 level on input BINA e bit 6 level on output BOUT1 OxOFO06 R Recalculate AN1 value with sign Ox0F07 R Recalculate AN2 value wi
24. lity easy expansion port exchange 2 3 Compatibility with Conel modems The expansion port CNT is possible use somewhere where it can extend modem about next port Typically are it modems CGU 04 CGU 04i UR 5 ER 75i CDL 400 and CDL 800 CNT DESCRIPTION 2 4 Technical specifications Name of product Expansion port CNT Power supply Voltage Internal 10 30V Supply power Sleep 100 pA counter is functional Operation 2mA Environment Operating temperature 20 55 Storage temperature 20 85 Standards Emission EN 55022 B Immunity ETS 300 342 Safety EN 60950 Izolation EN 60747 Inputs outputs 2x counter Max 100 Hz ratio max 1 10 2x analogy inputs 0 20 mA Rin 100 Ohms 2x binary inputs reed contact 1x output open collector 100 mA Others Voltage resistance Permanent Sleeping mode Controlled 2 4 1 Analogy input On analogy input it detected current converted to digital 10 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 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
25. lock 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 2 n 2 2 n BlockLent Data BlockAdrX BlockenX Datax RDS92 message type 1 byte 0x44 always Address interface station address 1 byte Length RDS92 message data part length 2 bytes lower first 13 CNT 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 message check sum 1 byte The DA4 addresses space Address jLength Access Description 0x0200 1 AN binary output control lee 0 0500 4 AN counter status set up CNT1 emm ee 0 0600 4 AN counter status set up CNT2 KEE EH 0 1000 4 R actual log ID 0 1004 4 R actual log Time 0x1008 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
26. 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 are metered and controlled 2 5 Connector connection on the modem The connector is places on appropriate modem the expansion port CNT is determine for signal processing RJ45 panel socket Signat mark Direction 1 BIN1 CNT1 Binary input counter input Input 2 BIN2 CNT2 Binary input counter input Input 3 DIN Binary input Input 4 BIN4 Binary input Input 5 GND Signal ground 6 OUT1 Binary output open collector Output 7 1 Analogy input Input 8 AN2 Analogy input Input CNT DESCRIPTION Typical connection of DA 4 measuring circuits for example 412VDC 12 0 DA4 2 CONNECTOR 8 45 SECURE BILL AT THE BACK we mm DA4 XCCNT1 _ADR 0 COUNTER BIN INPUTT COUNTERS INPUTS 1 AND 2 CAN WEIDMULLER Qoam 2 2 COUNTER BIN INPUT2 P Kee ALSO AS BINARY BI pre 4 ITE L THEIR CONNECTION IS SAME AS ik ew CONNECTION OF INPUTS 3 AND 4 FEE BINARY Ce 1
27. ments or accessories may lead to cancellation of guarantee which has no effects on your legal rights e Do not expose the expansion port to extreme conditions Protect it from dust moisture and heat CNT DESCRIPTION 2 CNT description 2 1 General description The expansion port CNT is created as independent signal counter which enables to use of the second hardware interface of Conel modems for next signal processing This interface is physical connected on RJ45 connector on appropriate modem The expansion port CNT is internal supplies from appropriate modem The expansion port CNT is protected against inputs overload At expansion port CNT including in modem it is possible use power supply management At permanent idleness the expansion port CNT is switch to low power supply mode when demand current is very low 100 pA Switch time to this status is program adjustable The module wake up is possible by PORT2 status variation 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 2 2 Examples of the expansion port usages modem UR 5 ER 75i CGU 04 CDL 400 CDL 800 expansion about next port nextsignal processing possibi
28. re 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 33 WARRANTY Date of purchase Seal of the vendor 34 WARRANTY Date of complaint registration Complaint protocol number Date of reception lof the device in repair shop Date of finished repair Seal of the repair shop 35
29. router CDL 800 Radiomodem CDL 400 Radiomodem 31 COMPLAINTS PROCEDURE 4 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 In 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 complaints 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 defec
30. t 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 of the 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 customer 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 32 COMPLAINTS PROCEDURE RwONAS e 7 8 the date when the original guarantee period subject of the complaint would have expired should it not have been r
31. th sign Ox0F08 R Upper 16 bits CNT1 0 0 09 R Lower 16 bits CNT1 OxOFOA R Prompt frequency CNT1 OxOFOB R Average frequency CNT1 OxOFOC R Minimal frequency CNT1 23 CNT DESCRIPTION OxOFOD R Maximal frequency CNT1 OxOFOE R Upper 16 bits of counter CNT2 value OxOFOF R Lower 16 bits of counter CNT2 value OxOF10 R Prompt frequency CNT2 OxOF 11 R Average frequency CNT2 Ox0F 12 R Minimal frequency CNT2 Ox0F 13 R Maximal frequency CNT2 0x1000 R 1 log upper 16 bits of log number 0x1001 R 1 log lower 16 bits of log number 0x1002 R 1 log upper 16 bits of time stamps 0x1003 R 1 log lower 16 bits of time stamps 0x1004 R 1 log alarms status 0x1005 R 1 log binary inputs status 0x1006 R 1 log recalculate value AN1 with sign 0x1007 R 1 log recalculate value AN2 with sign 0x1008 R 1 log upper 16 bits CNT1 0x1009 R 1 log lower 16 bits CNT1 0x100A R 1 log prompt frequency CNT1 0x100B R 1 log average frequency CNT1 0x100C R 1 log minimal frequency CNT1 0x100D R 1 log maximal frequency 1 0 100 R 1 log upper 16 bits of counter CNT2 value 0x100F R 1 log lower 16 bits of counter CNT2 value 0x1010 R 1 log prompt frequency CNT2 0x1011 R 1 log average frequency CNT2 0x1012 R 1 log minimal frequency CNT2 0x1013 R 1 log maximal frequency CNT2 SEET EE 0 1100 R
32. 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 bit 0 active level on input BIN e bit 1 active level on input BIN2 e bit 2 active level on input BINZ 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 19 CNT DESCRIPTION Asares access AAA 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 0x1005 R actual log power supply in tens mV 0x1006 R actual log binary inputs states bit 0 input BIN 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 bit 14 level on input CIO5 bit 15 validity of CIO value 0x1007 R actual log precalculate value 1 with marker 0x1
33. ut 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 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 CNT1 2 bytes higher first CNT1FMin counter minimal frequency 1 2 bytes higher first CNT1FMax counter maximal frequency CNT1 2 bytes higher first CNT2 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 b
34. ytes 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 5 analogy input value CIO5 2 bytes higher first Sum RDS92 message check sum 1 byte 11 CNT DESCRIPTION Address Length Time Type RDS92 message type 1 byte 0x44 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 2 Address Code BlockCount BlockAdr1 ET BlockAdrX BlockLenX 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 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 Blo

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