MT-713-user-manual
Contents
1. Battery connector power supply socket The module in standard edition is powered by 3 industrial standard serially connected alkali R20 batteries The nominal capacity of the battery pack is 16Ah allowing up to 5 years of operation depending on usage pattern Factory connected batteries eliminate the problem of contact oxidation during the long time of operation We recommend replacing the batteries with same type or the type with similar parameters The module is also available in HC version with double capacity battery 32Ah in order to prolong the operation on one battery pack The module is delivered in extended cabinet with 6 R20 alkali batteries securing longer operation time even with frequent measurements Third version with R20 Lithium batteries with nominal voltage of 3 6VDC and 39Ah Capacity in standard housing and with 78Ah capacity in extended housing is also available Max operating time for lithium batteries powered modules is up to 10 years More information about available power supplies may be obtained by contacting the module Supplier or directly with Inventia During local configuration via USB connection the module is powered from the computer The external supply is indicated by POWER LED details are to be found in LED sub chapter of Problem solving chapter The module powered from USB is in the state of high energy consumption 4 6 LED indicators LED indicators placed on MT 713 module s PCB are a g2. password is password protecting module s configuration If there is no password protecting module s configuration just omit password parameter and space just after it clear module configuration All but parameters essential to log module to GSM GPRS network and for remote configuration are set to default values password is password protecting module s configuration If there is no password protecting module s configuration just omit password parameter and space just after it add telephone number to authorized telephone numbers Authorization expires when module enters sleep mode password is password protecting module s configuration If there is no password protecting module s configuration just omit password parameter and space just after it add IP address to authorized IP configuration only Authorization expires when module enters sleep mode password is password protecting module s configuration If there is no password protecting module s configuration just omit password parameter and space just after it Each special SMS command except for password JONLINE mmmm lt 3 prolongates activity of module by 3 minutes All SMS commands including the incorrect commands are answered by SMS To prevent module from sending a reply to the command put sign on beginning of SMS not applicable to special SMS commands All module s responses are preceded by gt sign If the module can not interpret the command the response i
3. 5 0 0 0 Comments Voltage adjusting step is 0 1 V Max current may not exceed 50 MA 7 2 6 2 3 2 Measurement delay after activating Vo Performed Defines delay between delivering voltage to sensors and function registering the readings Data type Number Range 0 60 Default value 1 Comments Delay time is defined with 1 second accuracy When set to O readings are performed with 62 5 ms delay 7 2 6 2 3 3 Triggering bit Performed Selects any bit from module s address space Change of bit s state function to high initiates analogue inputs reading Data type Selection list or Number Range Name from bit list see bit list in Appendices or 0 65535 Default value N A Comments Bit addresses 0 9999 point to input space while addresses 10000 65535 point to internal registers space 7 2 6 2 3 4 Name Performed Defines input s friendly name function Data type Text Range Letters and numerals max 31 characters Default value Respectively AN1 AN2 AN3 AN4 AN5 Comments Assigning friendly names facilitates discrimination of inputs destination and required settings 7 2 6 2 3 5 Engineering units Performed Defines engineering units for measured values function Data type Text Range Letters and numerals max 15 characters Default value mV Comments Applied unit name has purely informative value and has no influence neither upon measured nor transmitted values
4. Defines the high temperature threshold value When exceeded function the module rises a TEMP_ Hi flag Data type Number 48 Range Default value Comments 7 2 6 5 2 Alarm Lo Performed function Data type Range Default value Comments 20 50 50 Resetting of the TEMP_Hi flag occurs when the temperature drops more than half degree below the threshold value Defines the low temperature threshold value When crossed the module rises a TEMP_Lo flag Number 20 50 20 Resetting of the TEMP_Lo flag occurs when the temperature rises more than half degree above the threshold value 7 2 6 6 Vibration sensor 15 Binary input 15 can operate as a input of signal from external vibration sensor with normally open contact such as CM 4400 1 Notification about detected vibration is done by setting VIB bit high To use this feature binary input 15 Operating mode parameter should be set to any setting but Inactive Full functionality of the binary input is maintained while the state of binary input 15 is analyzed on the presence of vibration This analysis is done without taking into account limitations imposed by parameters Minimum pulse length and Filtration Effect on analysis however has setting of Maximum pulse frequency parameter 7 2 6 6 1 Activity delay s Performed function Data type Range Default value Comments Defines minimum time of vibrations causing setting VIB bit high VIB is bit informin
5. wrong PIN G O X E W 8L Ox001C l Latitude in degrees Latitude LoHi GPS LAT 0x001D z OxOO1E Longitude in degrees Longitude LoHi GPS_LONG 0x001F GPS_COG Course in degrees 0 ES 90 El 0x0020 Course over ground 0 359 ao E 180 S 270 ox0021 Speed GPS_SPD Speed km h GDS STATE GPS status SAT number of satellites max 15 GEOF 1 position outside geofencing border GEOF_C 1 position outside geofencing SAT 0 15 border 1 cycle MOV 1 movement detected 1 cykl HDOP accuracy of position measurement 0 99 FIX 1 position found 1 cycle BAT ACT Time on battery h rested after battery disconnection 1 O mA 8 o 0x0023 int16 A Reserved 37 0x0025 int16 VO_ACT Timer of Vo activity m rested after battery disconnection 38 0x0026 int16 GPS ACT Timer of GPS recelver activity m rested after battery disconnection 39 0x0027 int16 GSM_ACT Timer of GSM modem activity m rested after battery disconnection 0x0028 int16 GSM_CNT GSM modem starts counter rested after battery disconnection 11 2 2 Internal registers binary outputs address space Dec HE oo a oxo004 6 ox0006 a ox0008 9 ox0009 DL Internal registers address space read write Modbus RTU functions read 1 4 write 5 6 15 16 D ipti areruraturerzritrraterztryfzizrrim _ Mm
6. 43 44 7 2 6 2 3 6 Low reference Performed function Data type Range Default value Comments Sets internal units low reference for rescaling of input signal to engineering units Number 0 5000 0 Low reference for internal units 7 2 6 2 3 7 Low reference engineering units Performed function Data type Range Default value Comments Sets engineering units low reference for rescaling of input signal to engineering units Number 32767 32767 0 Low reference for Engineering units 7 2 6 2 3 8 High reference Performed function Data type Range Default value Comments Sets internal units high reference for rescaling of input signal to engineering units Number 0 5000 5000 High reference for internal units 7 2 6 2 3 9 High reference engineering units Performed function Data type Range Default value Comments 7 2 6 2 3 10 Alarm HiHi Performed function Data type Range Default value Comments Sets engineering units high reference for rescaling of input signal to engineering units Number 32767 32767 5000 High reference for Engineering units engineering units Defines HiHi alarm level for analogue signal value in engineering units Number 32767 32767 32767 Upon exceeding the preset value by analogue signal the HiHi alarm flag is risen The resetting level of the flag depends on Alarm hyste
7. 7 2 0 2 1 2 Bit triggerine TOW Ca CUIDA EE AE AAKG 37 LAN AM E TTT 38 A EA Operatie polo sd actes iawn wuss clue asa AA OOO GOA 38 TL MAN A tance boas A A ts 38 T2202 kO 2 DY Ma Mle PUN abria so sous 38 Tao 7 MINU Pus lencia N NNE a td 39 FPO PAB a A O A II EA ACO 39 TROL FON UN A A A aa ee Oe 39 TOO FOW SCAM o 39 FEROZ LLL PIS WeIENE EN SINGS S UNS ada cack a EAN OE Zn l bwa Aa 40 P E H eN Tn HEN EINSSHING UNION CA Ad a a O EAC A SAMA OKA 40 7 262 123 AlaMFise eheenhs UNS ibn GA WEAR AGA dua dacia 40 TLO ALMA Alarm Lose gi eeri e CIES sata 40 TAGAL Alr tolos engineerin UNS A an 41 7 2 6 2 1 16 Alarm hysteresis engineering UNES o 41 7 2 6 2 1 17 Tracing reslolution engineering Uns see ee eee eee ee eee eee 41 AAA lO CA asa sand she OR O OE o Ao oO OE aiid aN eats 41 IES SE IN a TTT AN A Z R GA 42 71 2 0 2225GONMGlINEBIE OZ OO WW pone eep ctu GeiRera Gee Ea 42 T2072 2235 UNIS A O A ika Dad Go WA 42 152 023 ANO BUE PUES ANA GANI 3 aaa 42 7 2 6 2 3 1 Sensor POWEMNE Voltage Vs peaionsvoniious 42 7 2 6 2 3 2 Measurement delay after activating VO sse eee eee 43 26233 WIS SOUS lit A TT 43 SAO E APO PEO OA ORG A OOOO 43 TE A GO E Eo O A OOO ea ees 43 1 20 23 6 L0WwrelerenCe is 44 7 2 6 2 3 k w TETEFENCE engineering UDS is CRA ARA A Aa AGE Ah KE 44 F E GA fa OREGANO R 44 7 2 62 3 9 High reference engineerine UNS encarna 44 7 2 0 2 3 10 AlGIMFIFHL ENEINEENOSUNIE AAA 44 P OA A a A cn ester endo etn eee A ae 45 F262 3 AZ
8. Defines max number of retries of failed SMS transmission Number 1 16 3 After reaching the defined value the SMS is deleted from sending queue Decides whether the module may send SMS when roaming in foreign network Selection list Yes All SMS messages are sent regardless of the GSM roaming No When roaming in foreign GSM network no SMS are sent Messages are queued and will be sent upon return to home network No In order to be able to sent SMS in roaming the SIM card in the module has to have roaming option active When roaming option 7 2 3 4 SMS limit alert Performed function Data type Range Default value Comments of the SIM is not active the messages will be lost after reaching the Number of SMS sending attempts Contains the text of the SMS message sent upon reaching Daily SMS limit Text Letters numerals and special characters max 255 characters SMS limit was exceeded This information is sent beyond standard messages queue and only once a day This message does not increment sent messages counter 7 2 3 5 SMS limit alert recipient Performed function Data type Range Default value Comments Selects the SMS limit alert recipient Selection list Authorized numbers list and None None The recipient must be previously defined in Authorized numbers gt Phone Selecting None disables sending daily SMS limit alert 7 2 3 6 Reply to empty SMS Performed function Data type Ran
9. leo eee peleo oe ojo con test eao Q1 Q2 BOUT output is set high When read show current output state EEE EAS EE EEE Reserved 32 bit general purpose counter int32 LoHi CNT1 l 32 bit general purpose counter int32 LoHi CNT2 l 32 bit general purpose counter int32 LoHi CNT3 l 32 bit general purpose counter int32 LoHi CNT4 l 32 bit general purpose counter int32 LoHi CNT5 l 32 bit general purpose counter int32 LoHi CNT6 l 32 bit general purpose counter int32 LoHi CNT7 l l 32 bit general purpose counter int32 LoHi CNT8 11 3 Bit list 80 During its operation MT 713 is setting a series of binary variables associated with the I O and module diagnostics They can be used for trigger events and measurements MTManager2 0 for user convince have implemented list of predefined bits Bit name Description KEY P ACTIVATE button presses and released Bit set for one program cycle events only on rising edge FL C New flow value computed Bit set for one program cycle events only on rising edge AN C Analog inputs measurement finished Bit set for one program cycle events only on rising edge GPS C New data from GPS Bit set for one program cycle events only on rising edge Low battery voltage alarm Bit set for one program cycle LBAT C z events only on rising edge AN1 LoLo AN3 Lolo Analog inputs alarm bits LoLo alarm Measured value lower than LoLo alarm threshold AN1 Lo AN3 L
10. 0 00000 0 00000 E Comments Along with Base position latitude and Radius km parameters allows user to define geofencing circle If measured position of module is located outside geofencing circle module sets GEOFC bit high and GEOF_C bit high for one cycle GEOFC bit is zeroed when measured position is within geofencing circle Parameter is available if Geofencing parameter is set to Yes 7 2 6 8 11 Radius km Performed Allows user to set radius in km of geofencing circle centre function Data type Number Range 0 1 65 0 Default value 1 0 Comments Along with Base position latitude and Base position longitude parameters allows user to define geofencing circle If measured position of module is located outside geofencing circle module sets GEOFC bit high and GEOF_C bit high for one 53 7 2 6 9 Logger cycle GEOFC bit is zeroed when measured position is within geofencing circle Parameter is available if Geofencing parameter is set to Yes Contains parameter controlling logger s operation 7 2 6 9 1 Record validity time 54 Performed function Data type Range Default value Comments 2 6 9 2 Recipient Performed function Data type Range Default value Comments Defines period of collected records validity All records collected before are considered invalid and will not be transmitted Number Unlimited or 1 240 Unlimited After validity period elapsed the records
11. 3 lithium batteries 3 6 V 39 Ah 6 alkaline batteries 4 5 V 32 Ah 6 lithium batteries 3 6 V 78 Ah Mean current consumption in sleep mode lt 250 uA Mean current consumption with active GSM modem 9 11 Enclosure Mechanical endurance IK EN 62262 IK 08 07 Electrical isolation Total isolation Il Halogen less DIN VDE 0472 Part 815 UV resistance UL 508 Flammability Class UL 746 C 5 UL 94 5V Glowing rod test IEC 695 2 1 C NEMA Standard NEMA 1 4 4X 12 13 Material Polycarbonate Material of lid screws Stainless steel Gasket material Polyurethane Standard version dimensions 121207 Length Width Height HC version dimensions 121210 69 122 121210 121207 105 k h ha E Ta at a aha eana OM a NE NP lh KJ T FR ETT ATA a a Sy Bou Su u H u Baa n Se aca LE R RR ARR RR RKKA Z 9 12 Drawings and dimensions MT 713 standard version MT 713 HC version 10 Safety informations 10 1 Working environment When deploying telemetry modules one has to observe and comply to local legislation and regulations Using the telemetry module in places where it can cause radio noise or other disturbances is strictly prohibited 10 2 Electronic equipment Thou most of modern electrical equipment is well RF Radio Frequency shielded there is no certainty that radio waves emitted by the
12. 6 2 1 13 Alarm Hi Performed function Data type Range Default value Comments Defines HiHi alarm level for flow value in engineering units Number 0 32767 32767 If value of analog signal is higher than value of this parameter the HiHi alarm flag is risen The resetting level of the flag depends on Alarm hysteresis setting This parameter is available only in pulse counting mode engineering units Defines Hi alarm level for flow value in engineering units Number 0 32767 32767 If value of analog signal is higher than value of this parameter the Hi alarm flag is risen The resetting level of the flag depends on Alarm hysteresis setting This parameter is available only in pulse counting mode 7 2 6 2 1 14 Alarm Lo engineering units Performed function Data type Range Default value Comments Defines Lo alarm level for flow value in engineering units Number 0 32767 0 If value of analog signal is lower than value of this parameter the Lo alarm flag is risen The resetting level of the flag depends on Alarm hysteresis setting This parameter is available only in pulse counting mode 7 2 6 2 1 15 Alarm LoLo engineering units Performed function Data type Range Default value Comments Defines LoLo alarm level for flow value in engineering units Number 0 32767 0 If value of analog signal is lower than value of this parameter the LoLo alar
13. Alan iO O Ne IMSSTING UNILS dd AE T dia 45 7 2 6 2 3 13 Alarm LoLo engineering UNITS aaa ii dde 45 7 2 6 2 3 14 ANI hysteresis engineering UNITS al 45 7 2 6 2 3 15 Tracing reslolution engineering Units see ee eee eee ee eee eee 45 PaO e COUMES CNL eU Ss A Ai 46 PELOS LANCE Mente MOUT cid dais 46 2032 INCFEMENUNE PACS ACE SIOPE erar e EE ATE dis 46 720 33 Decre mente MO Ub esis rai 47 1 2 0 3 DECI EMENTING IMDUTS ACTIVES MONA oa 47 Fc 2 SARA RA GA dek OR RA aT 47 122 011 5 ynchronous timer CUL da E TTT 47 AoA kA BAZA 47 AT A Va na e OPER O CT IO 48 FAROL NS A tng AEG 48 TRA WGI CAV S add 48 Pick BO TOMAS SOUS OU Ya ai a 48 ASA SP die sp pacous uses O Ao cada ia Od At 48 TADA ZION 49 VOI O O O 49 F 9 A o S A A ER ee eae gee n 49 7 2 0 6 2A CUVILY a ae eae ors wea Le eames 49 O 49 7 20 Z 4LOWAVGISSE T case tate A A Galla ee ee ove nnd ta 50 F207 2 PAM SCEMECAUIM CINE CIV Al cu 50 TROBAT Saad NE 50 7 20028 LS EL e tas ata o AAA A 50 7 2 6 8 2 Bit triggering position measurement aaa aa aaa aa aaa aaa aaa aaa aaa aaa aaa aaa aaa aaa EE TEE 51 7 2 6 8 3 Bit triggering position measurement when SELE O ccccssssecsssssseccscosessecccsessececcessecnccesestsseesssssseeseessesesesss 51 7 2 6 8 4 Bit triggering position measurement when SEL 1 eee uau ea aaa aaa aa aaa aaa aa aaa aaa aaa aaa aaa zaaaaa aa niaaaaaarianak aan ia 51 7 2 6 8 5 Accuracy of position measurement IDO Pri o 52 20 80
14. Comments No The module exchanges information configuration responses for queries with any IP address sending qualified query or command In this case the identification of the sender goes by it s current identifier Yes Switching the control off enables verification of the sender on the base of it s currently assigned identifier other than IP address e g serial number or virtual IP for MT 1xx series This allows communication among units with dynamically assigned IP addresses within same APN Sender s identifier must reside on Authorized P addresses list in order to establish the communication Inserts IP address for newly created module definition The address assigned upon last GPRS login and read in along with the configuration is displayed IP address 0 0 0 0 255 255 255 255 0 0 0 0 When this field is left at default value 0 0 0 0 the remote communication with the module will be impossible Defines IP address of the computer running MTSpooler the program performing delayed remote configuration of battery powered modules Selection list Authorized IP list None If MTSpooler is not employed the parameter should have value None This will avoid obsolete reporting to the spooler and pointless retries due to missing replies 7 2 4 8 GPRS transmission retries number Defines number of attempts to send data through GPRS network if the reply to original transmission does not arrive in a timely manner specifi
15. MOVE MENOS IN aa A A AAA A aden E A e o 52 7 2 6 8 7 Movementsignaling threshold li avenues maki nA ONA AAAA 52 Fi PG BB SS A AO CARGO GE A AAAA A AAA 52 R20 92 Base POSO aS GA AOR AAAA 53 720 8 ON Base position lee e tas 53 CAOS N eUT a ta des 53 PA ALORS O CAO 54 ZGOS Record validi tie ae si ii ac aa 54 A A O ON 54 A2093 RECENTS UDP DO rs tacita sie Sii 54 TOSCANO E INONUNE MOJE asc A N ANE T 54 LA EEES NN a 55 z22 10NUMBEFOREVCNEN OWENA OC Z AO A AN 55 ZSZ ENS CO IN AA AAA A A AAA AT OT OE 55 ZO GSM OCV UOS TT 56 D2 Sds CUVEE er SMS recep Onenna a R R adna a a N 56 o T ACNE amero PAS Thame FECCDUON koian aa a GAZ A a GA NNA A 56 DO UNOS TTT 56 TiS Aig Sende SM T 56 TADA SMS VAN MV a isis 57 FP OAD Number OF SMS Sen dins Ulea ra 57 TAS SNS LL iii 57 ZOB yl CII y TTT 58 SOLES 2 E ORO 58 7 29 5333 VEA E NN SAA SAN 58 EASE T E Tas URT TINS a ter OS Mii 58 A A Tas T A ee RE E EE ee ee oe ee er AJ 58 72 9 2 Recipient SDP PO tana A AAA 59 52 92 DA VDE A isa 59 F292 3 NiUmMberotrdatosehdinETUJES a Gad A AAA id 59 VA DA DIAL A IE i eee eee 60 A Gale MIOCENE CVI WS O 60 IAE E AZ Date O A Un act Oh ra 60 PI ZA O SRA ADA ual satan ale WOODA A 60 TAL AA ACOSO 61 IS Ae DD ACE THT 61 T2927 4 6 Buer star A O o ON 61 AE MET ABS OY Bad INN 61 EL Z AS AREG space target address siii A A AN EE EA AA 62 Zie da PRESETS is 62 LIL COUNTERS GIN 1a CNE as a EA e EE E ao O a a 62 8 PROBLEM SOLVING uc TT 63 5 15 Led BD Bet Fe VB
16. are not deleted There is a possibility of reading them on demand Defines IP address to send Logger s content to Selection list List of authorized IP addresses N A If the Logger is not in use the parameter should have value of N A 2 6 9 3 Recipient s UDP port Performed function Data type Range Default value Comments Defines UDP port to which logger contens will be sent Number 1024 65535 7110 One has to remember to configure the receiving side s port driver MTDataProvider to receive on the same port as set by this parameter 2 6 9 4 Sending in online mode Performed function Data type Range Default value Comments Defines the logger sending interval if the module is on line mode The sending must be in advance triggered by a relevant event If the module goes into hibernation the triggering has to be reactivated Number 1 50 1 If the module is non stop on line it will send the logger content after first triggering event and will keep on sending logger at intervals defined by this parameter 7 2 7 Events Group Events defines status change of binary inputs flags inputs outputs bits as events Events are used to trigger recording and flushing the logger along with reporting to MTSpooler and sending data and SMS messages 7 2 7 1 Number of events Performed Defines the number of events in Events Table function Data type Number Range 0 64 Default value 0 Comments Ift
17. available configuration parameters All parameters concern firmware version compliant with documentation version Problem solving here all procedures for battery replacement and unblocking the SIM card along with LED indicators signaling Technical parameters a revue of technical parameters and technical drawings Safety information information concerning conditions of secure use of the module Appendices contain a register of changes in consecutive firmware versions syntax of SMS messages and the memory map of the module necessary for proper configuration of MTDataProvider and data collecting equipment 3 GSM requirements For proper operation of the module a SIM card provided by a GSM operator with GPRS and or SMS option enabled is essential 5 The sim card has to be registered in the APN with static IP addressing Assigned to SIM unique IP address will become a unique identifier of the module within the APN enabling the communication with other units in the structure A paramount condition for operation is securing the adequate GSM signal level in the place where module s antenna is placed Using the module in places where there is no adequate signal level may cause breaks in transmission and thereby data loss along with generating excessive transmission costs 4 Module s design 4 1 Module s topography GSM ACTIVATE Mode LEDs button Oe GPS antenna SIM card s connector holder USB Power connector ou
18. channel Default value 0 0 0 0 deactivates testing process Any inserted IP address is assumed to be valid We recommend using here the central node s data collector IP address Defines the interval of testing GPRS connection in minutes Number 0 250 4 Testing is performed by sending data frames to defined by the parameter GPRS testing address Test frames are sent when the module is logged in APN and no communication is performed during the defined by this parameter period If the test fails that is the module does not receive confirmation during the time defined by the Transmission timeout parameter and after defined number of retries the connection to the APN Is reset Defines whether the module is to use GPRS transmission when roaming in foreign GSM network Selection list Yes In absence of home network availability the module will try to log in to available foreign GPRS network No Using of GPRS networks other than home network disabled Default value No Comments In order to log in to other networks the SIM card present in the module must have roaming option enabled ATTENTION Using GPRS roaming may cause considerable expenses It is strongly recommended to investigate the cost of GPRS transmission of countries one plans to use roaming services in 7 2 5 Authorized numbers Group Authorized numbers comprises lists of phone numbers and IP addresses the module is going to communicate with The List
19. data logger data GSM activity group Contains parameters extending GSM GPRS log in time after reception of SMS or incoming data Rules group contains lists of transmission tasks to perform when defining criteria are met Beyond above mentioned configuration parameter groups there are Initial settings enabling presetting of module s resources 25 7 2 1 Header group The header group contains basic information describing the module along with configuration and version of configuration file stored by the program Information displayed is for verification purposes only and thus not available for user configuration 7 2 1 1 Module name Performed Presents the name assigned to the module during configuration function Data type Text Range None read only parameter Comments N A 7 2 1 2 Module type Performed Displays the type of configured module function Data type Text Range N A read only parameter Default value N A Comments N A 7 2 1 3 IMEI number Performed Displays GSM modem s IMEI number function Data type Number Range N A read only parameter Comments N A 7 2 1 4 SIM card s number Performed Displays SIM card s serial number function Data type Number Range N A read only parameter Comments N A 7 2 1 5 Module s serial number Performed Displays the serial number of configured module function Data type Text Range N A read only parameter Default
20. described in the program documentation e automatically with GPS localization available in modules with installed GPS receiver It is recommended to manually synchronize module s real time clock during the first configuration performed using the MTManager program NOTI CE The clock setting has to be repeated if the module is disconnected from power source for more than 10 minutes 4 2 9 Timers MT 713 module is equipped with 8 general purpose programmable synchronous timers Their function is counting constant user defined time intervals in range of 1 min to 24 hours The user may appoint month and week days when the timer Is active The timer may be used to trigger periodical events like measuring analog values flow data transmission logger recordings and other functions 4 2 10 Counters MT 713 is equipped with 8 general purpose counters Their duty is to count pulses understood as binary signal changes of any bit present in the memory map Each counter has one incrementing and one decrementing input and assigned 32 bit register holding the difference of counted pulses Initial state of the counters may be defined by user activating MTManager2 0 menu item Initial settings more info in MTManager2 0 manual Counters may be used for e g flow meter s pulse counting counting of enclosure openings GPRS logins and many others 4 2 11 Logger 12 MT 713 module has a programmable Logger that may hold up to 10240 data
21. eee ne A a 63 SL POWER LED A ae oat oO OE LER AOL RS 64 12 LEDINO OLOFS aa RnR AP aves 64 8 2 UNBLOCKING THE SIM CARD iii aid ddr 66 Sr BATTERY REPLACEMENT arron lada ide 66 9 TECHNICAL PARAMETERS oco O cia doo 67 REGENERACJA O PECO A ld dd o loo ls ee tele sate 67 PVO MGSM R TTT 67 932 BINARW POLSFINPUTS Heda dd tddi diana 68 gA OUR SO UTPUTS QLC Ama acads 68 DS ANALOG INPUTS ANI AN SS 68 9 6 POWER OUTPUT e adoos 68 A ak z A A A RO 68 EA 69 99 TEMPERATURE SEN SORA a a ki R A 69 SUOZPOWEPSUPPE Rae radza RR Ra ac ad dolencia horndes 69 9 1 4 ENCLOSURE R OO tits 69 9 12 DRAWINGSAND DIMENSIONS GG aan ia waciki ada nadia ASA AA AO AZ 71 10 SAFETY INFORMATIONS osorno 72 10 1 WORKING ENVIRONMENT GG ERA A AS EAS AAA lo 72 T02 ELECTROME EQUIPMENT Au oi O oO oi Soo O debas 72 102A HCO PUCE MOKI S unta tata doit 72 102 2 fearg dids a o o A NG 72 1025 0MermeaicarEGOIDMONE SGO AA AA A ES 72 10 2 4 RPEMOrKEG EGUIDIMENU usa oO A A A Ai 72 TOS EXPLOSIVE ENVIRONMENT RO Go a od O AG Z odci 72 TL APPEND ICE Saa 73 TIE SMS COMMANDS SY Ne de ae lol 73 TEZ MEMORY MAP ra E E aos O 75 11 2 1 Analog inputs binary inputs address Space sss eee eee 76 11 2 2 Internal registers binary outputs address SPACE cccccccccccecsccccccssscseccecceeccececccecesceceeeeeeeesssseeeeeeeeeeeeeeeeeeeeenss 79 DVS E RT 80 1 Module s destination MT 713 Module is a specialized telemetry module optimized for application in simple measurement and alarming syst
22. id 7 A22 BINAY QULDUNS A ii dia 8 ES Y 0 6 NPU T 9 4 2 4 Power output Vo analog sensors SUPPLY sseesccccssnnsssesssccccsscccsseesscccssccussesssccsesscccuseesscccssecesseesscesssueccsssessss 9 ADS SENCIOSUFCODCTINIG SINS Odd OE i a ida Pd AO 10 ADO CID CLOUT EC SONS AAA kla a ay E 11 A DF Hee gier CNS OF OD EIONOI eseista OOP A R G CIE 11 ADB REGI Time COCK A AA AA A A A ALA 11 RL 12 4210 COUMTES A A A A aaa 12 AD LI LO aaa 12 RR A O O da AAC 13 A a E eee 13 G IO Ree a AOR A A A iaa 14 A POWER SUPL tai 15 4 6 LED INDICATORS AA AA E 15 AAA TE BUTTON e O a e A EA 16 4 9 GIMANTENNA SA 17 AO CONDENSATION SENSOR ER doses av ada exes tobe hues a ZG 17 AUTO ENCLOSURE ai di Ti 18 S CONNECTION DIAGRA MIS air di A A A A NIE 18 BINARIA PUES dd ds is ll lv EZ EO 18 Diz BINARY OUTPUT OG OO Ba WY 19 5 ZZANALOGINPUM arista dE a OKE RC or AZ CORE A RC AREN RAA 20 SAGS MANTE NNA ZS Gmach A SAA OO AE 21 Sor SIME CARD INSTALLATION carr akon AS oni On AAA 22 RO OWERSUPP Ei ida di dod bea 23 6 FIRST START OF THE MODULE siria ad 24 Tr CONFIGURA TION iaa os 25 EL GENF RALCINFORMA TION asas ica iia 25 Fil PARAMETER GROUPS Ea aE ER AGE ico 25 PLACA OU ad 26 FDA LMC UE DAME A A AA E AAA A 26 A o PI O enue E tons az doi kai A 26 Teg B IMEL UND ES EAS AA A EAS ta dau elu NN 26 V2 A o A II E A RO AEC 26 12 MS Vo dues sena DUMPET TT 26 P DH Tee TREST e TTT 27 EZ e MIO GUE STMMWALEVELSION a wawa ia 27 F AC ONMBULALIO
23. of IP addresses serves to granting access to configuration and data reception privileges 7 2 5 1 Number of phone book entries Performed Defines the length of phone numbers list authorized to exchange function SMS messages Data type Number Range 0 32 Default value 0 Comments The value of this parameter may vary as the result of adding deleting when using the context menu operating directly on Phone number The module will communicate only with units with the phone number present on the list The only exception is a special SMS activating the module Read more in Syntax for reading and writing commands using SMS chapter of Appendices 7 2 5 2 Number of IP addresses Performed Defines the length of the IP addresses list function Data type Number Range 0 32 Default value 0 Comments The value of this parameter may vary as the result of adding deleting when using the context menu operating directly IP addresses list The module will communicate only with units with the IP address present on the list 7 2 5 3 Phone Ip Index number Name Friendly name facilitating identification of the module while defining Rules Max length 16 characters Number Phone number assigned to list index Max 14 characters Receiving The module receives and analyzes SMS messages depending on 35 Configuration selected setting When Receiving is not allowed all SMS messages will be deleted Default value x
24. of our telemetry solutions The program objective is creating a coherent program environment for management and configuration of MT ML module series The program is a specialized environment enabling full control of the telemetry system regardless its size The opportunity of dividing all resources into Projects and Folders facilitates management of very large systems All parameters described below are available after adding a MT 713 module to MTM environment Detailed description of functionality and use of MTM program is to be found in MTManager User Manual 7 2 Parameter Groups For the ease of use MT 713 parameters are divided into logically or functionally related groups Header group contains unmodifiable parameters describing the module firmware and configuration General group contains basic parameters defining module s operating mode SMS group contains parameters for SMS services handling GPRS group contains parameters necessary for log in GPRS network and defining vital parameters for reliable transmission Authorized numbers contains lists of phone numbers and IP addresses of other rou terminals authorized to communicate with the module Resources group contains parameters for programmatic and hardware resources related to reading and processing measurement data Events group contains a list of defined events e g binary input state change used to trigger module s actions e g sending SMS measurement
25. records This equals either 24 hours measurements taken every 10 seconds or 1 month measurements taken with 5 minutes intervals The logger logs asynchronous data meaning that the record writing is triggered by an event defined by user in the Event table The event may be e g analog value measuring completion counting the time by the timer login to GPRS crossing one of defined alarm thresholds and other The logger records all of the events defined in the table The user has an opportunity to define which ones have to be transmitted The records are the copy of all module s registers Each record in the logger has a time stamp of the module s internal Real Time Clock RTC The data written in the logger is transmitted to IP address assigned during configuration Sending of the logger content is triggered by user defined events Confirmation of reception marks records as sent In case of overflowing the oldest records are overwritten 4 2 12 GPS optional MT 713 module may be equipped with a GPS receiver This allows defining the exact geographical position of the module This feature may be employed to identify units in a mass deployment or to define actual position of the mobile measuring point It is possible to use a GPS receiver to report movements of the module 4 3 USB Inside the enclosure of MT 713 there is a USB socket used for local configuration by MTManager program USB socket During USB co
26. take the SIM card off insert the SIM card to the mobile phone that accepts the SIM issued by your operator start the phone and insert the PUK code followed by PIN code power the module on insert proper PIN into configuration power the module off place the SIM card in the module power the module on Executing the procedure unblocks the SIM card and enables module s proper operation 8 3 Battery replacement In order to replace the battery in MT 713 do following e disassemble the enclosure lid e press the ACTIVATE button for 2 to 8 seconds this will force the module to go into battery replacement mode signaled by double flashes of POWER LED In this mode the module does not perform analog inputs measurements neither GPS measurements nor log into GSM network nor send data and SMS messages disconnect the power cable from the PCB e tilt the metal shelf with PCB 66 remove the battery pack and replace it with the new one put the shelf back in place connect the battery to the socket on PCB assemble back and tighten the lid The battery replacement mode extends the operating without power supply time Deactivating the battery replacement mode is performed by pressing the ACTIVATE button for 2 to 8 seconds or connecting the battery or placing the enclosure lid at it s place We recommend using original battery packs available at manufacturers stores 9 Technical parameters 9 1 General 122 x 120 x 95 mm for HC ve
27. telemetry module s antenna may have negative influence on it s function 10 2 1 Heart pacemakers It is recommended that the distance between the antenna of telemetry module and the Heart Pacemaker is greater than 20 cm This distance is recommended by manufacturers of Pacemakers and in full harmony with results of studies conducted independently by Wireless Technology Research 10 2 2 Hearing aids In rare cases the signal emitted by the telemetry module s antenna may disturb hearing aids functions Should that occur one has to study detailed operating instructions and recommendations for that particular product 10 2 3 Other medical equipment Any radio device including the telemetry module may disturb the work of electronic medical equipment When there is a need of installing telemetry module in vicinity of medical equipment one has to contact the manufacturer of this equipment in order to make sure that the equipment is adequately protected against interference of radio frequency waves RF 10 2 4 RF Marked equipment The restriction against installing telemetry modules in areas marked as radio frequency RF prohibition zones must be unconditionally observed 10 3 Explosive environment Installation of telemetry modules in the environment where explosion hazard is present is not permitted Usually but not always these places are marked with warning signs Where there is no marking do not install telemetry modules at liqu
28. which slope of incrementing bit activates the counter function incrementing function Data type Selection list Range Pulse start pulse start is considered a new pulse Pulse end pulse end is considered a new pulse Default value Pulse start Comments This parameter is available only in pulse counting mode 7 2 6 2 1 9 Flow unit Performed Defines the flow unit function Data type Text Range Letters and numerals max 15 characters Default value MV Comments The unit name has solely informative value with no influence on measured and transmitted information This parameter is available only in pulse counting mode 7 2 6 2 1 10 Flow scaling Performed Selects time reference units for flow scaling function Data type Selection list Range None 39 40 Default value Comments Minute eng units min Defines value increase per minute Hour eng units h Defines value increase per hour None This parameter is available only in pulse counting mode 7 2 6 2 1 11 Pulse weight engineering units Performed function Data type Range Default value Comments Defines pulse weight Number 1 1000 1 The value of the parameter is multiplied by counted pulses in order to calculate flow rate This parameter is available only in pulse counting mode 7 2 6 2 1 12 Alarm HiHi engineering units Performed function Data type Range Default value Comments 7 2
29. with negative logic meaning that high state occurs only when the input is connected to ground In open circuit the potential in reference to GND pin is not higher than 2 5 VDC Inputs work only with potential free contacts like relay outputs keyed transistor outputs Recommended input connection diagram ANT ANZ ANG N Y 1 Z 13 4 LB N GI Ge e amp o 959696889 66666666 111213 14 15 All binary inputs have same reference module s electrical ground negative pole of the power supply connected to GND pin Vibration sensor should be connected between 15 and GND 5 2 Binary outputs Binary outputs are transistor outputs of NMOS type QI They are designed to control loads powered from external positive potential source In the High state the output is Shorted to ground via NMOS transistor in ON state open drain circuit In case of inductive type load connected a relay the circuit limiting voltage peaks to max 30V is necessary The recommended connection diagram Negative pole of the external load s power supply has to be connected to module s GND terminal 19 5 3 Analog inputs Analog inputs convert input voltage in 0 5V range This means that the potential between analog input terminals shall not be higher than 5V The potential of analog input terminals towards module s ground applies for connection with the symmetrical sensor four leaded has to be within 0 5V to 9V for positive
30. C 1 timezone change 1 cycle RTC_C 1 RTC clock change 1 cycle RTC_OK 1 RTC clock set 0x0006 LL 7 0x0007 0x0008 KEY T7 CT8 10 int16 FL1 Flow 11 11 0x000B int16 2 Flow12 int16 3 Flow 13 int16 4 _ Flow 14 5 1 2 3 BIN Ix binary inputs states KEY ACTIVATE button state V MT ALM Alarm bits I LBAT_C 1 low battery voltage alarm B 1 cycle DEW 1 condensation alarm TEMP_Lo 1 low temperature alarm H TEMP_Hi 1 high temperature alarm i OPEN 1 open enclosure alarm VIB 1 vibrations alarm K1 CLOCK Timer flags 1 cykl FL FL FL FL 14 int16 FL Flow 15 AN AN AN 12 A 13 FA i 5 Ox000F int16 AN1 Analog input AN1 6 O AN2 7 0x0011 int16 O AaB S ML 9 0 1 1 1 Analog input AN3 1 Low alarm bits 1 2 0x0010 int16 Analog input AN2 AN3_ AN2 AN1 FL5 FL4 FL3 FL2 FL1 AN3 AN2 AN1 FL5 FL4 FL3 FL2 FL1 FL5 FL4 FL3 FL2 FL1 FLS FL4 FL3 FL2 FL1 i i AN3 AN2 AN1 FL5 FL4 FL3 FL2 FL1 i oai e E E une es 21 0x0015 0 5000 VBAT Battery voltage mV 0x0016 int16 TEMP Temperature x 0 1 C 0x0017 23 24 SYG_LEV 0 100 A G GSM_STATE GSM status bits 5 P S SYG_LEV GSM signal strength N M GSM 1 module registered in GSM range OK 0x0018 ROAMING 1 module in roaming GPRS 1 GPRS available APN 1 module logged into APN SIM_ERR 1 error or no SIM card PIN_ERR 1
31. N tie eT DT 27 HL COMMPULALION dentier eros ia cr cli idad Atina ze 27 er o a T TT 27 Fle Ve VASE MEAG CV A NT 28 RUE GY cl 6 A REACT ERE at PRS RR CEA R RE 28 P22 LPINEGJEGONNESMCZIJ aaa AAA IA AAA 28 P2 2 2 COMligutatlo a o A AOC 28 7 2 2 3 Blocking of configuration reading ani a AN iba 29 T2 AA LIME SYNENFONIZAUEM GR E E EEE E io 29 A A tunes sate NEE a dente wea waned AA GOA OGAE PARA O OPO 29 TDS SNS EA do enolate Siac 30 2 DANS MS Mad 30 72 32 NUME OMS Sendai te Ta natal 30 MELISSA SMOC NIE 30 Fla SS O O O 31 P23 De SIMS MAA ERA NA A ES 31 TD SOAR COV LO EMDI MS raid 31 PL eT ROSE 31 Tel A APN NINE AAA SS 31 A A S O AOR OE AA 32 KZK APN DISS WO ae OO Ai oi ANR T 32 F Device idente san Een AGA RAK GARE KE WE O RU AAAA AALS I ass 32 m24 5 Senderiaddresscheckac wieko w ias 32 P o DEVICE 1 POW AAA OWA A E R AA 33 TANTES PA EOG OBA ARA 33 240 GPRS transmission rethes MUMIDER ias a 33 129 TRANSMISSION IMC Ud dina 34 F2 ATO GPRS testine Address PINE is 34 RAIL RS ESNE WNE ea greet esas os N ias 34 ELL GPRS TOANE tii titi 34 FAS AUTO FIZ CO NONO ONS e it 35 Tal NUMBEr Ol PHONE DOOK entes a WO AKWA A Died aes a ea 35 Tid Sos NOMD OP ele e TTT 35 O e Cen a TE EDEN COA RE a O ADA 35 A O UE ea ORE eae OKO O SCAN 36 F20 RESOUNO S sa id AS A AAA AAA ASADA AA AAA ida 36 ZO Internal resources Modbus Dia RO E a 37 AA AA EE O II II A AR A E N 37 7 2 6 2 1 Binary pulse inputs LS a 37 F202 e OE o UC NC A O II O W 37
32. S HACCA A CA lG GDG DQ G G Employing the sensor allows detection of operating on the border of Allowed operating temperature Operating in conditions close to dew point may be dangerous for electronic circuits Therefore it is recommended to use optional sensor for humidity and temperature 4 2 7 Vibration sensor optional Binary input I5 is prepared to operate as signal input from external vibration sensor switch with normally open contact e g CM 4400 1 This sensor can be used for detection of module movement This allows user to perform measurements of module s positions only when the device moves thus reducing power consumption Vibration sensor should be connected to binary input 15 according to connection diagram of binary inputs 4 2 8 Real Time Clock MT 713 module is equipped with Real Time Clock RTC This clock is a source for time measurement for the module s timers and time stamping of measurements stored in the Logger The data transmitted by GPRS and data recorded in the logger are stamped with UTC time without taking the time zone into consideration The timer used by SMS services and Timers respects the time zone settings 11 Real Time Clock may be synchronized with e Network operator time the service provided by some GSM operators e automatically with the MTSpooler at every reporting to the server Previous assignment of Spooler s IP manually using the MTManager the clock synchronizing is
33. Telemetry Module MT 713 C C 1471 User Manual l s zas in en tia Sfo 6 x h Saug oe E 3 in entia telemetria pl 1471 Telemetry Module MT 713 User Manual GSM GPRS Telemetry Module for monitoring and control Class 1 Telecommunications Terminal Equipment for GSM 850 900 1800 1900 INVENTIA Sp Z 0 0 V0 90 MT 713 2010 Inventia Ltd Wszelkie prawa zastrzezone Zaden fragment niniejszego dokumentu nie moze by powielany lub kopiowany w adnej formie bez wzgl du na stosowan technologi graficzn elektroniczn lub mechaniczn w czaj c fotokopiowanie i lub zapis cyfrowy r wnie w systemach przechowywania i wyszukiwania dokument w bez pisemnej zgody Wydawcy Nazwy produkt w wymienionych w niniejszym dokumencie mog by Znakami Towarowymi i lub zastrze onymi Znakami Towarowymi nale cymi do odpowiednich W a cicieli Wydawca i Autor o wiadczaj e nie roszcz do tych znak w towarowych adnych praw Pomimo e niniejsze opracowanie tworzone by o z zachowaniem wszelkiej nale ytej staranno ci zar wno Wydawca jak i Autor nie ponosz adnej odpowiedzialno ci za b dy lub pomini cia w jego tre ci jak r wnie za straty wynik e z wykorzystania zawartej w niniejszym opracowaniu informacji lub ewentualnie towarzysz cego jej oprogramowania W adnym wypadku Wydawca lub Autor nie b d odpowiedzialni za utrat zysku lub inne straty
34. alue None Comments To send the SMS message Events table must have at least one event defined 7 2 9 1 3 2 Recipient Performed Assigns a recipient of SMS from defined in Authorized numbers function gt Phone list Data type Selection list Range None or the name from Phone list Default value None Comments To send the SMS message the Authorized numbers gt Phone must have at least one phone number defined 7 2 9 1 3 3 Template Performed Defines a template of SMS message function Data type Alphanumeric array Range Q 255 alphanumeric characters no diacritical Default value 0 Comments SMS messages Template may contain any string of characters except diacritical It may contain mnemonics dynamically replaced at run time by values drawn from the module e g time register or logical state of the bit The syntax of commands is described in detail in Syntax_of commands for reading and writing data by SMS paragraph 7 2 9 1 3 4 Activity time after log in Performed Defines how many minutes after log in to GSM network in order function to send SMS the module remains active Data type Number Range 0 1080 Default value 0 Comments Any value different than O ensures prolonged time for remote access to the module after sending the SMS or for reception of SMS sent to the module Leaving the 0 value makes the module to hibernate immediately after sending the SMS Extending the activ
35. alue Comments 7 2 9 2 4 7 Buffer size Performed function Data type Range Default value Comments Points out the address of the first register of the array to be sent Number 0 31 0 N A Defines the number of consecutive register to be sent Number 1 32 1 N A 61 7 2 9 2 4 8 HREG space target address Performed Defines the address in receiving unit s internal registers holding function registers where the buffer is going to be written Data type Number Range 0 9999 Default value 96 Comments N A 7 3 Presets In order to expand module s application areas it is furbished with initial settings for some resources It is necessary when the module is operating as a pulse counter for measuring devices e g water consumption meter with pulse output having initial count other than zero Due to Presets the actual value of totalizer register may be equalized with mechanical counter of the device thus not disturbing the functionality of the system In order to set Presets go to menu Configuration and select the Initial settings option or click the icon on the toolbar per Presets The Presets icon is active only when the module is connected and selected transmission channel is not the Spooler Sending data in Presets mode is possible only as sending changes Bear in mind that sending configuration changes result in immediate and irrevocable updating of the resource When Presets mode is sel
36. antenna placement is important during the module installation In case of low GSM signal level using the directional antenna with high gain Where GSM signal is good internal antenna may be used In that case the antenna socket shall be moved to inside the enclosure to the hole in module s metal frame The empty hole in the enclosure should be sealed 4 9 Condensation sensor On the modules circuit board module condensation sensor is implemented If water is condensing on the MT 713 PCB this sensor sets DEW alarm bit 17 4 10 Enclosure Enclosure of MT 713 module is manufactured by FIBOX of high quality plastic securing sufficient environmental protection 1 P67 for the electronics even in harsh environment The catalog number is PCT121207 All enclosure data including the parameters of used Material are available at manufacturer s web page www fibox com The I P68 version of enclosure Is available upon request Bear in mind that protection grade is highly dependent on proper lid assembly and sealing cable glands Improperly closed leaking cabinet leaves the electronics and the battery unprotected 5 Connection diagrams This chapter presents recommended configurations of connections for proper functioning of all MT 713 module s resources Connections are presented for e Binary inputs 11 15 e Binary outputs Q1 02 e Analog inputs AN1 AN3 e Power supply 5 1 Binary inputs 18 Binary inputs of MT 713 operate
37. as follows 6 16 7 103 Bits that are typed in bold in the memory map tables are refreshed in each program cycle irrespective of fact if modem is on or off It is recommended to use only those bits for generating events that trigger a measurement or data SMS sending rule In case of using those bits for such purposes expected action of module will be executed only after GSM modem start triggered by other event 75 N O 11 2 1 Analog inputs binary inputs address space Analog inputs address space read only Modbus RTU functions 2 4 Description FS 1 PRG_STATE FS first scan pierwszy cykl RUN program running 12 7 13 2714 2 15 RTC_FSEC RTC UTC time second fraction RTC UTC time RTC time RTC_HMS second youngest bit in RTC_FSEC gt 6 R R Z H C G A F K S MT BITS Module status bits T T O R F P N L E d L O E z S BAT 1 battery OK C C N E G S gt z Y E S M B T USB 1 powered from USB x a E G z C C a E GSM 1 GSM modem on O C 3 Z O C P P GPS 1 GPS on K C K Vo 1 Vo output on SLEEP 1 set for 1 cycle after awaking 1 cycle PF 1 set for one cycle after power restore 1 cycle KEY P 1 ACTIVATE button released 1 cycle FL C 1 new flow value computed 1 cycle AN_C 1 analog inputs measurement finished 1 cycle GDS C 1 new data from GPS 1 cycle CFG OK 1 module configuration OK HREG_ C 1 remote HREG registers change 1 cycle ZONE_
38. ata type Range Default value Comments Defines border value of HDOP parameter Number 1 99 25 GPS receiver will stop position measurement when it will reach set HDOP value or after 4 minutes from beginning of GPS measurement After completion of position measurement GPS_C bit is set If module was able to measure position it sets FIX bit and writes new GPS data to registers 2 6 8 6 Movement signaling Performed function Data type Range Default value Comments Enables disables movement detection mechanism Selection list Yes Signaling enabled No Signaling disabled No Setting this parameter to Yes makes available additional parameter Movement signaling threshold km used for determining minimum distance causing movement signaling Signaling is done by setting MOV bit high for one cycle after detecting movement for distance greater than given by Movement signaling threshold km parameter 2 6 8 7 Movement signaling threshold km Performed function Data type Range Default value Comments 2 6 8 8 Geofencing Performed function Data type Range Defines minimum movement distance in km causing movement signaling Number 0 1 65 0 1 0 Signaling is done by setting MOV bit high for one cycle after detecting movement for distance greater than given by Movement signaling threshold km parameter Parameter is available only if Movement signaling pa
39. d and low if the circuit is open This solution allows energy saving a crucial ability for battery driven devices The contacts are polarized with potential of 3V in low state Binary inputs are not isolated Each binary input independently of other inputs configuration may operate as e Binary input change of input s state after considering filtration coefficient results in change of bit assigned to it in memory see the memory map The bit s state change may be used to trigger data transmission sms analog signal measurement and other actions Pulse input allows calculating the flow based on counted flow meter pulses Aberrations may be filtered by setting signal s max frequency assuming the signal fill is 50 global setting and max pulse duration individual for each input The flow may be defined in engineering units per minute or hour Each flow has assigned 4 alarm bits that may be used for event triggering NOTICE In this mode bits assigned to inputs 11 15 do not change the state and cannot be used to trigger events except for counting inputs for counters CNT1 CNT5 In addition binary input I5 is prepared to operate as input of signal from vibration sensor with normally open contacts e g CM 4400 1 Additional parameters are gathered in Vibration sensor optional Independently of selected operating mode states of binary inputs are monitored by the module both in sleep mode and in wake mode 4 2 2 Binary outpu
40. ding rules Performed function Defines the n umber of data sending rules 59 Data type Range Default value Comments 7 2 9 2 4 Data 1 32 60 Number U 32 0 Reducing the rules number does not delete settings of rules until writing the configuration to the module Each of rules is defined by mandatory parameters as recipient triggering event and data format The maximum number of rules is 32 7 2 9 2 4 1 Triggering event Performed function Data type Range Default value Comments 7 2 9 2 4 2 Data format Performed function Data type Range Default value Comments 7 2 9 2 4 3 Recipient Performed function Data type Range Default value Comments Assigns which one of previously defined events will trigger data frame transmission Selection list None or a name selected from the Event table None In order to send data there must be at least one event defined in the Event table Defines type of transmitted data Selection list Status Frame containing complete information on module s state Xway Frame containing GPS position data for Xway vehicle localization system Spooler Frame reporting to MTSpooler program that is used for remote configuration of battery powered modules Buffer Frame containing selected registers of the module This type of frame may be used to communicate with other MT modules Status Depending on selected frame typ
41. e described in Problem solving chapter 7 2 2 2 Configuration password Performed Allows protecting the configuration with a password The function password will be required in order to read and write configuration both for local and remote operations The password protects against unauthorized attempts of changing the configuration The password does not protect against reading of module s resources Data type Alphanumeric Range Letters digits and special characters max 31 characters Default value N A Comments Since the only way of unlocking the module without the 28 Performed function Data type Range Default value Comments Performed function Data type Range Default value Comments 7 2 2 5 Using GPRS Performed function Data type Range Default value Comments password is returning to factory settings it is strongly recommended to store passwords at safe location 7 2 2 3 Blocking of configuration reading Allows blocking of configuration reading even when valid password is supplied Selection list Yes Reading of configuration is impossible No The module is not protected against reading of configuration No This parameter does not influence writing of full configuration while it prevents writing changes if configuration identifiers are not identical in the module and in MTManager program 7 2 2 4 Time synchronization Selects the source and synchronizes module s real ti
42. e some parameters may become unavailable Defines a particular recipient of data previously defined on Authorized numbers gt IP list Selection list None or the name from IP list None In order to send data there must be at least one address defined on the Authorized numbers gt IP list This parameter is unavailable when selected Data Format is Spooler In this particular case the recipient is defined by Spooler IP in GPRS group s parameters 7 2 9 2 4 4 Activity time after log in Performed function Data type Range Default value Comments 7 2 9 2 4 5 Space Performed function Data type Range Default value Comments Defines how long time after GPRS log in the module remains active Number 0 1080 0 Value other than O grants extra time for remote access to the module for e g configuration data read out SMS reception e t c Increasing activity time shortens battery life time Leaving it at O makes the module hibernate immediately after performing scheduled tasks Defines module s memory space where data prepared for transmission reside Selection list I REG Analogue inputs space input registers HREG Internal registers space holding registers I REG This parameter is accessible only when Buffer data format has been selected Addresses of module s resources may be found in Memory map in Appendices 7 2 9 2 4 6 Buffer start address Performed function Data type Range Default v
43. ected all configuration groups disappear from the panel and only parameters that may have initial value set are displayed For MT 713 module the parameters are Counters CN1 CNe 7 3 1 Counters CN1 CN8 62 Name of the Counter CN1 CN8 resource Data type Number Range 2 147 483 647 2 147 483 647 After inserting new values of the resource the background becomes highlighted yellow This means that the value has been changed and is selected to be sent to the module Parameter Value CH 12 LH 2 2147492647 CH3 214 403b40 LH 4 516 CHS 214 CHE 03647 CH7 2183647 CHS 16 8 Problem solving 8 1 LED signaling MT 713 is equipped with six LED indicators reflecting the module state e POWER LED indicates current Power supply and module s state low and high energy consumption state called also sleep and activity state e ERR LED indicates abnormal states e STA LED indicates GSM GPRS status GSM login as well as GPRS login roaming and Signal level e TX LED indicates Data or SMS transmission e RX LED indicates data or SMS reception e USB LED indicates USB port state The current state is signaled by flashes varying in length and number 63 8 1 1 POWER LED Signals emitted by POWER LED identify current Power supply and module s state See the table below i Battery supply USB port supply Sleep state c U O 5 U 6 U in progress flas
44. ed by Transmission timeout parameter Number 0 9 2 Setting the value to 0 results in sending data without waiting for reception confirmation In normal conditions the value should not exceed 3 This prevents loss of transmitted data without blocking of subsequent rules processing Bear in mind that subsequent data will be sent after reception of confirmation for reception of previous frame Every transmission prolongs high energy consumption state and influences battery life time 33 7 2 4 9 Transmission timeout Performed function Data type Range Default value Comments Defines the wait time for reception confirmation of sent data frame in seconds Number 1 60 8 The value of this parameter along with number of transmission retries influences max time of sending a data frame For default values the time is 3 1 6 24s One has to bear in mind that long waiting time consumes the energy and shortens battery life time 7 2 4 10 GPRS testing address ping 7 2 4 11 GPRS testing time Performed function Data type Range Default value Comments Performed function Data type Range Default value Comments 7 2 4 12 GPRS roaming 34 Performed function Data type Range Defines IP address for GPRS transmission test frames IP address 0 0 0 0 255 255 255 255 0 0 0 0 This parameter defines IP address to send data frames testing GPRS transmission
45. ems where power lines are unavailable Compact design low power consumption from internal battery continuous pulse counting on binary inputs local logging of measurement results and spontaneous information sending upon predefined events makes the module ideal choice for applications requiring periodical supervision of parameters and long time operation on own battery supply The module is delivered in two battery size versions MT 713 standard and MT 713HC double capacity battery The typical application areas are water sewerage especially water flow measuring using potential free contact meter and monitoring of water level in wells and vessels For better acquaintance with the module and optimizing the power consumption we recommend reading configuration guide and application examples in appendices 2 How to use the manual The manual was written for beginners as well as for advanced telemetry users Each user will find useful information about Module s design this chapter presents the basic information about module s resources and design elements Her is the information about how does the module work and how and where it may be employed Module s connection diagrams contains diagrams and procedures for connecting MT 713 with devices and external elements like sensors antennas or the SIM card First start of the module contains recommended first start procedure Configuration this chapter presents information about all
46. er set binary output does not work if the output is controlled by other bit than Q1 or Q2 73 74 Special commands lL password JACTI VATE HH MM mm lL password GETIP lL password JONLI NE mmmm lL password CLRLOG lL password CLRCFG lL password JENPHONE tel number lL password JENIP IP address Comments this command makes module activate and log into GPRS at HH MM for mm minutes zeroes at the beginning of hour and or minutes can be omitted The module sends confirmation with date and time of activation and module s timestamp This activation does not make module to report to MTSpooler password is password protecting module s configuration If there is no password protecting module s configuration just omit password parameter and space just after it read module s current IP address if not logged to GPRS answer is 0 0 0 0 password is password protecting module s configuration If there is no password protecting module s configuration just omit password parameter and space just after it extend module activity time by mmmm minutes in range 1 1092 If this parameter is omitted activity is prolonged by 3 minutes In response module sends time remaining to go asleep password is password protecting module s configuration If there is no password protecting module s configuration just omit password parameter and space just after it delete all stored in FLASH memory events and logger records
47. es window Device jg B Chamber 126 MT 713 General SMS GPRS Authorized numbers Resources Events GSM activity Rules SMS sending SMS q W Data sending The number of rules may be defined by setting Number of SMS sending rules 7 2 9 1 1 SMS validity time Performed function Data type Range Default value Comments 7 2 9 1 2 Number of SMS Performed function Data type Range Default value Comments 7 2 9 1 3 SMS 1 32 Each SMS sending rule Defines validity time of SMS messages Number Unlimited or 1 240 Unlimited If the module cannot send SMS messages no coverage no roaming exceeded SMS limit they are kept in the memory and will be dispatched at first convenience This parameter defines maximum time the message waits for the opportunity to be sent After defined time the messages are deleted sending rules Defines the number SMS sending rules Number 0 32 0 Reducing the rules number does not delete settings of rules until writing the configuration to the module on the list is defined by mandatory parameters like recipient triggering event and the message text The maximum number of rules is 32 57 7 2 9 1 3 1 Triggering event Performed Assigns which one of previously defined event will trigger function sending of a particular text message Data type Selection list Range None or names of events from the Events table Default v
48. function Data type Range Default value Comments Defines bit triggering position measurement Selection list or Number Name from bit list see bit list in Appendices or 0 65535 None Parameter is visible only when parameter SEL selection bit is set to None Bit addresses 0 9999 point to input space while addresses 10000 65535 point to internal registers space 2 6 8 3 Bit triggering position measurement when SEL 0 Performed function Data type Range Default value Comments Defines bit triggering position measurement when SEL bit is zeroed Selection list or Number Name from bit list see bit list in Appendices or 0 65535 None Parameter is visible only when parameter SEL selection bit is set to any value but None Bit addresses 0 9999 point to input space while addresses 10000 65535 point to internal registers space 2 6 8 4 Bit triggering position measurement when SEL 1 Performed function Data type Range Default value Comments Defines bit triggering position measurement when SEL bit is in high state Selection list or Number Name from bit list see bit list in Appendices or 0 65535 None Parameter is visible only when parameter SEL selection bit is set to any value but None Bit addresses 0 9999 point to input space while addresses 10000 65535 point to internal registers space 7 2 6 8 5 Accuracy of position measurement HDOP 52 Performed function D
49. g about vibrations Number 0 60 1 Setting this parameter to O causes setting VIB high on every single pulse on 15 binary input This parameter is available only when Operating mode of 15 binary input is set to any setting but Inactive 7 2 6 6 2 Activity time min Performed function Data type Range Default value Comments 7 2 6 7 Battery Defines minimum time in minutes of lack vibrations causing zeroing of VIB bit VIB is bit informing about vibrations Number 0 30 1 This parameter is available only when Operating mode of 15 binary input is set to any setting but Inactive Groups parameters defining the battery state monitoring method 49 7 2 6 7 1 Low voltage alarm 7 2 Performed function Data type Range Default value Comments Defines threshold level of battery voltage When the voltage drops to the threshold value a LBAT_C flag is raised The alarm is generated for the voltage lower than threshold value The alarm flag is raised for one program cycle Number 20 AU 3 0 The LBAT_C alarm flag is recommended to dispatch the information about necessity of battery replacement For lithium batteries it is advised to set this parameter to 3 0 2 6 7 2 Alarm generating interval Performed function Data type Range Default value Comments 6 8 GPS Defines the interval for generating battery low voltage alarm Selection list 1 hour 2 hours 3 hours 4 hours 6 hours 8 h
50. ge Default value Comments 7 2 4 GPRS defines the text of reply for empty SMS to the sender Text Letters numerals and special characters max 255 characters Hello MT 713 here In replay message text symbolic names may be used following syntax rules defined in Appendices in the Syntax of read and write commands in SMS chapter GPRS Group contains parameters related to log in and data transmission functions in GPRS system They can be divided into mandatory e g APN name optional e g Spooler IP and optimizing transmission e g Transmission timeout s 7 2 4 1 APN name Performed function Data type Range Default value Comments Defines the name of APN in which GPRS transmission will be carried out Text Letters numerals special characters max 63 characters Empty Not defined APN name renders log in to GPRS impossible 31 7 2 4 2 APN user name Performed function Data type Range Default value Comments 7 2 4 3 APN password 7 2 4 4 Device identifier Performed function Data type Range Default value Comments Performed function Data type Range Default value Comments Defines user name for access to APN Text Letters numerals special characters max 31 characters Empty This parameter is optional supplied only if GSM operator requires it Defines a password for the particular APN user Text Letters numerals special characters max 31 characters Empty This
51. he operator This parameters are the only parameters required to login to GSM GPRS network Bear in mind that the module with only the basic configuration does not have ability to send data After checking the ability to login the full configuration of parameters has to be performed in order to use the module in intended extent I nserting the SIM card After downloading the first configuration disconnect the USB connection insert the SIM card according to the previous chapter s instructions and reconnect the USB cable The module should login to the GSM GPRS network The status of the module may be verified by comparing LED indicators with the table provided in the sub chapter LED signaling of Problem solving chapter Login sequence 1 Module start 2 Verification of SIM card s PIN code 3 Registration of modem in GSM network 4 Login to selected APN in GPRS network Verify the configuration if any errors are indicated 4 Setting the module time The last but very important element of module s startup is synchronizing the Real Time Clock of the module with the computer clock It is crucial since lack of synchronization may result with faulty time stamping of the data in Logger and may lead to data loss More information about time synchronization is in MTManager user manual 7 Configuration 7 1 General information Configuration of MT 713 module is performed by MTManager MTM program delivered free of charge to all users
52. he value is 0 Events table is not displayed 7 2 7 2 Events table I dx List indexing number Name Friendly name of event used in Rules to define the event triggering the rule processing Max length 16 characters Triggering bit Address of bit triggering the event Name from bit list see bit list in Appendices or O 65535 Triggering slope Event triggering slope Selection list 0 gt 1 rising slope default value 1 gt 0 falling slope 0 lt gt 1 any slope Records to be Toggles on off sending records written to logger on occurring sent event Default value x OFF Triggering logger Toggles sending the logger content on off on occurring event transmission Default value x OFF Update of GPS Toggles GPS positioning on off on occurring event position Default value x OFF Comments The event table appears when defined number of events is greater then zero The number of positions on the list equals defined events number Entries on the list may be easily added and deleted by using context menu activated by right mouse button click on any position of the list in parameters window Ids Mame Triggering bt Triggering slope Records to be sent Triggering logger sending Update of GPS position 1 Timer CT gt x y x 2 Button KEY D 0 gt 1 dl Y x E Flow measurment FL_C O gt 1 Y X X 4 EWT 4 Hone lt gt Y Y Y A EVT E 0 gt 1 Y Y y 55 7 2 8 GSM activities The group contains parameters defining mini
53. hes when measuring GPS position calculation Battery replacement mode 8 1 2 LED indicators LED signaling consists of five second messages comprising four basic signals differing by lit time of LED indicators Tables below display all states signalled Legend o short flash 20ms 64 ERR LED ee error SMS or GPRS transmission STA LED da less cards O receive module not logged in GSM network 0000 logged in foreign GSM network roaming very weak signal 97 83 dBi logged in foreign GSM network roaming good signal 81 67 dBi logged in foreign GSM network roaming very good signal gt 65 dBi TX and RX LEDs sending TX receiving RX SMS messages sending TX receiving RX GPRS data frame logged in foreign GSM network roaming very weak signal lt 99 dBi 65 USB LED o data packet sent via USB port O port in offline state See the example of STA LED signaling logging in GSM GPRS in roaming with very good signal JS 500 ms 500 ms 500 rms BOO ms ll ra 00 ms 200 ms _ 20 ms 20 ms 20 ms d K bd d K 4 rega i ME 8 2 Unblocking the SIM card Triple insertion of wrong PIN code results in blocking the SIM card Blocked card renders SMS and data transmission impossible Blocked sim card is signalled by ERR LED In order to unblock the SIM card do the following e power the module off e
54. id or gas fuels stores inflammable materials stores nor places contaminated with metal or wheat dust 72 11 Appendices 11 1 SMS commands syntax MT 713 can send SMS messages including mnemonics replaced with numerical values at the moment of dispatch It can respond to queries sent via SMS Bear in mind that the module receives SMS messages only when it is logged in the network In the table you will find all available commands and mnemonics for SMS Bold types represent mandatory commands while italics represent parameters added by user Square brackets embrace optional elements Read commands Commands may be used as mnemonics in SMS messages sent as a result of Rules processing read GPS position time stamp UTC GPSD ss read GPS position date stamp UTC GPSP read GPS position o ANanalog input number read analog input register value does not perform the measurement FLbinary input number read flow register value does not perform the flow calculation GSM i readsignallevel SN read serialnumber S MOD read magus pe NAME read modulemame S read module s current IP address if not logged to GPRS answer is 0 0 0 0 Write commands CNTcounter number write new value to counter register calibration HRdecimal register write new value to internal register holding registers address HBdecimal bit address write bit value to internal register space holding registers Qbinary output numb
55. ion list 0 gt 1 logical state change from O to 1 1 gt 0 logical state change from 1 to O 0 gt 1 N A 7 2 6 3 3 Decrementing input Performed function Data type Range Default value Comments Defines the bit which state change decrements counter value by 1 Selection list or Number Name from bit list see bit list in Appendices or 0 65535 N A Bit addresses 0 9999 point to input space while addresses 10000 65535 point to internal registers space 7 2 6 3 4 Decrementing input s active slope Performed function Data type Range Default value Comments Defines decrementing bit s slope activating counter decrementing function Selection list 0 gt 1 logical state change from O to 1 1 gt 0 logical state change from 1 to O 0 gt 1 N A 7 2 6 4 Timers Group Timers contains configuration parameters of module s timers 7 2 6 4 1 Synchronous timers CT1 CT8 Synchronous timers measure cyclically defined time intervals They are synchronized with module s real time clock RTC 7 2 6 4 1 1 Start Performed function Data type Range Default value Defines the synchronization point with RTC Time 00 00 23 59 00 00 47 Comments At time defined by this parameter the module will always generate a pulse One can make it generate pulse every hour 15 minutes after the hour elapses in that case the parameter Start should have value 00 15 7 2 6 4 1 2 Interval Perfor
56. isplays the date and time of last successful configuration change Text N A read only parameter N A The value of this field updates automatically after successful configuration change This parameter helps tracing unauthorized configuration changes 2 7 2 1 11 Last read device time Performed Displays internal clock time read upon change of time or during function last configuration reading Data type Text Range Compliant with Time and Date format Default value N A Comments This field s value may be used for verifying last access time and setting real time clock RTC of the module 7 2 2 General Group General consists of parameters vital for module s operation regardless of employed resources and functionality Data inserted here is paramount for proper log in to GSM and GPRS network One has to be aware of the fact that values inserted here influence module s operation Inserting invalid parameter values may render the module dysfunctional e g inserting of invalid PIN code for the SIM card 7 2 2 1 PIN code of the SIM card Performed Allows passing of the PIN code supplied along with the SIM card function inserted into the module For SIM cards not protected by the code the value is insignificant Data type Number Range Max 8 digits Default value N A Comments Inserting of wrong value may cause blocking of the module In case of module signaling locked SIM card apply unlocking procedur
57. ity time reduces battery life time 7 2 9 2 Sending data 58 Sub group Sending consists of two parts e list of data sending rules e general parameters common to all rules on the list List of data sending rules contains max 32 rules allowing sending user defined data to appointed IP address Entries on the list may be easily added by using context menu activated by right mouse button click on any position of the list of rules Device 5 B Chamber 126 MT 713 General SMS GPRS W Authorized numbers H Resources W Events GSM activity Rules W SMS sending E Data sendi The number of rules may be defined by setting Number of data sending rules parameter 7 2 9 2 1 Recipient s UDP port Performed function Data type Range Default value Comments Assigns UDP port number for transmitted data frames Number 1024 65535 7110 One has to remember to configure receiving side s driver to listen to the same port number 7 2 9 2 2 Data validity time Performed function Data type Range Default value Comments Defines validity time of data in hours Number Unlimited or 1 240 Unlimited If the module cannot send GPRS data frame no coverage no roaming no GPRS services the data is stored in module s memory and will be sent at first convenience This parameter defines max storage time until deleting the data This parameter does not influence the logger 7 2 9 2 3 Number of data sen
58. lectrical noise Number 0 1 60 0 0 1 Increasing the value increases noise immunity but delays change detection reaction This parameter is available in binary input mode only 7 2 6 2 1 6 Dynamic pull up Performed function Data type Range Default value Comments Defines dynamic pull up function Selection list Yes Dynamic pull up on No Dynamic pull up off Yes Activating of dynamic pull up reduces binary inputs energy consumption the current is sent through internal resistors to the input only during input state sampling time When dynamic pull up is off the current is flowing constantly thus increasing power consumption especially for inputs working in high state mainly We recommend to keep dynamic pull up on except situations where e connected circuit has the capacity higher than 1 nF e direct current contact clean up is required 7 2 6 2 1 7 Minimum pulse length Performed Defines approximated minimal pulse length function Data type Selection list Range 2ms 12 8s Default value 64ms Comments This parameter filters high frequency signal noise Available values of the parameter depend on previously defined Max pulse frequency NOTICE Do not select higher value than actual pulse duration because it will make the module reject received pulses as too Short noise This parameter is available in binary input mode only 7 2 6 2 1 8 Active slope Performed Defines
59. m flag is risen The resetting level of the flag depends on Alarm hysteresis setting This parameter is available only in pulse counting mode 7 2 6 2 1 16 Alarm hysteresis engineering units Performed function Data type Range Default value Comments 7 2 6 2 1 17 Tracing Performed function Data type Range Default value Comments Defines the hysteresis value for flow alarm threshold The value is set in engineering units Number 0 32767 100 Setting hysteresis relevant for signal fluctuations prevents excessive activations of alarm flags This parameter is available only in pulse counting mode reslolution engineering units This parameter defines a minimal change of calculated flow value to react on Exceeding this value sets a flag FL1 DB to FL5 DB respective to the pulse input where the change has been detected high The flag is reset after one program cycle to low state 0 Number 0 32767 100 When set to value O the flag will rise upon every detected flow change by minimum 1 engineering unit Tracing resolution flags are dedicated to continuous monitoring of flow changes This parameter is available only in pulse counting mode 7 2 6 2 2 Binary outputs Q1 Q2 The module has two latching binary outputs that may operate as mono or bi stable In the high state output connects to GND 41 7 2 6 2 2 1 Name Performed function Data type Range Default value Com
60. me clock RTC Selection list None time synchronization off Operator GSM time synchronization with GSM operator s network This option works only in networks supporting time synchronization None If the module is furbished with GPS module the clock will be synchronized with GPS time each time the geographical position is set This synchronization is independent of Time synchronization parameter settings The parameter selects module s operating mode Selection list Yes The Module operates in GPRS mode and attempts to log in to appolnted APN at power on This mode requires SIM card with GPRS enabled No The Module operates in GSM mode The only way of remote operation is sending SMS messages This operating mode does not require GPRS thus allowing use of a pre paid SIM Yes N A 29 7 2 3 SMS Group SMS contains parameters related to sending and receiving of text messages by MT 713 module 7 2 3 1 Daily SMS limit Performed function Data type Range Default value Comments Defines max number of SMS the module may send during one day The parameter protects against uncontrolled sending of SMS messages and consequent high running expenses Number 1 60 000 100 N A 7 2 3 2 Number of SMS sending attempts Performed function Data type Range Default value Comments 7 2 3 3 SMS in roaming Performed function Data type Range Default value Comments 30
61. med Defines the interval module s clock should measure function Data type Selection list Range Never 1 min 2 min 3 min 5 min 10 min 15 min 30 min 1 hour 2 hours 3 hours 4 hours 6 hours 8 hours 12 hours 24 hours Default value Never Comments Selecting Never deactivates the timer 7 2 6 4 1 3 Week days Performed Defines week days when the timer is active function Data type Multiple choice field Range Mo Tu We Th Fr Sa Su Default value Mo Tu We Th Fr Sa Su all week days selected Comments The timer s activity is depending on logical sum of week days and month days Selecting all week days will make the timer active all of the time If no week days are selected the activity of the timer will depend on month days selection 7 2 6 4 1 4 Month days Performed Selects month days when the timer is active function Data type Multiple choice field Range 1 2 30 31 Last Default value No day selected none of month days is selected Comments The timer s activity is depending on logical sum of week days and month days Selecting all month days will make the timer active all of the time If no month days are selected the activity of the timer will depend on week days selection 7 2 6 5 Temperature sensor MT 713 module is equipped with an integrated temperature sensor or with optional precise temperature and humidity sensor 7 2 6 5 1 Alarm Hi Performed
62. ments Defines output s friendly name Text Letters and numerals max 31 characters Respectively Q1 and Q2 Assigning friendly names facilitates discrimination of outputs destination and required settings 7 2 6 2 2 2 Controlling bit Performed function Data type Range Default value Comments Selects any bit from module s address space Change of bit s state to high triggers the output high Selection list or Number Name from the bit list see bit list in Appendices or O 65535 Respectively Q1 address 10000 Q2 address 10001 Bit addresses 0 9999 point to input space while addresses 10000 65535 point to internal registers space 7 2 6 2 2 3 Pulse length Performed function Data type Range Default value Comments Defines the length of pulse generated on binary output in seconds Number 0 0 1800 0 with 0 1 step 0 Setting the value to O changes operating mode of the output from monostable to bi stable the output state is a true copy of the controlling bit s state 7 2 6 2 3 Analogue inputs AN1 AN3 42 MT 713 module is equipped with three analogue inputs operating in O 5V standard and one controlled analogue output Vo designed to power connected sensors 7 2 6 2 3 1 Sensor powering voltage Vo Performed function Data type Range Default value Defines the value of voltage generated at power output Vo dedicated to power analog sensors connected to the module Number 0 0
63. mstances an external power supply should be used Powering from improper sources may damage the module permanently 23 6 First start of the module 24 First start of the module MT 713 requires a few simple activities We recommend supplying the power via USB in order to save the battery Please follow 1 Connect signal wires and GSM antenna Recommended connections diagrams for signal wires and the antenna are in Module connections diagrams chapter First configuration of the module The scope of first configuration of MT 713 is to enter parameters enabling login to GSM network and optionally GPRS network A USB connection to the computer running MTManager program suite has to be established Detailed information on how to install and use the MTManager program is attached in the installation CD In order to login to GSM GPRS network the basic information about the SIM card and APN have to be provided to the module In General group PIN code for the SIM card provide PIN code for SIM card that is going to be placed in the module unless the card is set in pin less mode Using GPRS Yes if using SMS and GPRS packet transmission is intended No if the module is going to use SMS mode only In GPRS group visible when Using GPRS parameter is set to Yes APN name provide APN name for GPRS transmission APN user name provide user name if required by the operator APN password provide the password if required by t
64. mum log in time in GPRS network after receiving data or SMS message 7 2 8 1 Active after SMS reception Performed Defines GSM activity time after receiving of SMS in minutes function Data type Number Range Q 1080 Default value 0 Comments Value other than O grants extra time for remote access to the module for e g configuration data read out e t c Increasing activity time shortens battery life time 7 2 8 2 Active after GPRS frame reception Performed Defines GSM activity time after receiving of GPRS frame in function minutes Data type Number Range 0 1080 Default value 0 Comments Value other than O grants extra time for remote access to the module for e g configuration data read out e t c Increasing activity time shortens battery life time 7 2 9 Rules Group Rules contains list of transmission tasks performed in case of fulfillment of defined criteria by internal program Tasks are divided in two groups e SMS sending rules e Data sending rules In both cases criteria are defined by employing previously defined Events 7 2 9 1 Sending SMS Sub group Sending SMS consists of two parts e list of SMS sending rules e general parameters of all rules 56 List of SMS sending rules allows max 32 rules triggering SMS transmission Entries on the list may be easily added and deleted by using context menu activated by right mouse button click on any position of the list in defined rul
65. nnection between the module and the computer the module is powered via USB port Thanks to that the module does not consume precious battery power during configuration and tests During USB connection the register holding data of battery voltage is frozen on the last recorded value at first configuration the value is 0 For USB connection a standard cable of type AB is used See depicted plugs of the cable below A B The proper USB connection is signaled by the POWER LED the module is powered by USB and the USB LED USB port ready for transmission Data transmission is signaled by shot flashes of USB LED 13 USB LED Detailed information on using the USB port for module configuration is to be found in the MTManager2 0 program manual 4 4 SIM card s holder MT 713 module is equipped with a holder for miniature SIM card for GSM modem The holder is placed horizontally on the PCB inside the enclosure SIM card holder Proper insertion of the SIM card is essential for module s operation in GSM network The module accepts only SIM cards in 3 3V low voltage technology 14 4 5 Power supply MT 713 module may be powered exclusively from battery the pack with nominal voltage 4 5VDC The battery pack is placed in the cradle below the PCB and connects to the module by a special plug The plug and the socket are asymmetrical thus preventing reverse polarization This way secures easy and safe battery replacement
66. not allowed Depending on configuration settings incoming configuration SMS will be processed or ignored Default value x not allowed Entries on phone list may be easily added and deleted by using context menu activated by right mouse button click on any position of the list in parameters window Ids Mame 1 E LP 7 2 6 Resources 36 Ip Name Number Receiving Configuration Humber Aecevirig Configuration X X Index number Friendly name facilitating identification of the module s IP while defining Rules Max length 16 characters IP address assigned to list index Value of this parameter determines whether data arriving from selected IP will be accepted or ignored Default value Y Allowed Value of this parameter determines whether remote configuration data arriving from selected IP will be ignored or accepted Notice that both sender s and receiver s addresses must reside in the same network APN Default value Y Allowed Entries on the list may be easily added and deleted by using context menu activated by right mouse button click on any position of the list in parameters window Ids Hame 1 Number Receming Configuration Y Y Resources group contains user defined hardware configuration and hardware programs parameters Particular sub groups contain fields allowing fast and intuitive preparation of the module to perform measurements and evaluations of external parameters binary
67. o Analog inputs alarm bits Lo alarm Measured value lower than Lo alarm threshold AN1 Hi AN3 Hi Analog inputs alarm bits Hi alarm Measured value higher than Hi alarm threshold AN1 HiHi AN3 HiHi Analog inputs alarm bits HiHi alarm Measured value higher than HiHi alarm threshold Q1 02 Binary outputs Q1 Q2 More information about all available bits can be found in Memory map
68. on process Selection list or Number Name from bit list see bit list in Appendices or O 65535 N A Bit addresses 0 9999 point to input space while addresses 10000 65535 point to internal registers space ATTENTION Bit states and register values marked with bold in memory map are refreshed at every program cycle All remaining resources are refreshed only when the module is in high energy consumption state awake It is recommended to employ bits marked bold for triggering purposes 37 38 7 2 6 2 1 3 Name Performed function Data type Range Default value Comments 7 2 6 2 1 4 Operating Performed function Data type Range Default value Comments 7 2 6 2 1 5 Filtration Performed function Data type Range Default value Comments Defines input s friendly name Text Letters and numerals max 31 characters Respective I1 12 13 14 15 Assigning friendly names facilitates discrimination of inputs destination and required settings mode Defines binary input s operating mode Selection list Inactive Input switched off Binary input Operates as binary input Pulse input Operates as pulse input Inactive According to selected mode MTManager displays additional configuration parameters for each input Defines in seconds minimum duration of electrical state on the input to be considered stable thereby indirectly defining maximum time duration of e
69. on time for analog inputs is app 0 5 sec and minimum measure interval is 1 sec 4 2 4 Power output Vo analog sensors supply MT 713 module is equipped with the keyed power output Vo which is destined to power sensors connected to analog inputs Power output and ground This output allows user to power sensors with voltage ranging from O to 5VDC with step 0 1V Voltage is specified by the user parameter configuration In order to lower power consumption of the device output is switched on only for the time necessary for the measurement The delay between switching the input on and the measurement and therefore turning off of output Vo is configurable 4 2 5 Enclosure opening sensor Enclosure opening sensor detects opening of enclosure thus allowing gathering of information about maintenance work battery replacement and unauthorized access Enclosure opening sensor 10 The information about enclosure opening is represented by the OPEN bit This bit changes it s state to high 0 1 second after enclosure opening and shifts to low state 60 seconds after closing the enclosure The 60 second delay prevents false alarms caused by multiple activations of the sensor during closing of the enclosure 4 2 6 Temperature sensor Integrated in the modem temperature sensor measures the temperature inside the enclosure and after configuration sends alerts about too high respective too low temperature _ Modem GSM GPR
70. ours 12 hours 24 hours 24 hours When the battery voltage is lower than the one defined by Low voltage alarm parameter the module will rise alarm flag with frequency defined by this parameter When the voltage returns to value above threshold battery replaced the module will stop generating alarms Contains parameters controlling the optional GPS receiver 7 2 6 8 1 SEL selection bit Performed function Data type Range Default value Comments Defines bit used for choosing one from two position measurement triggering sources Selection list or Number Name from bit list see bit list in Appendices or 0 65535 None If parameter is set to None here is only one Bit triggering position measurement In any other case there are two such parameters Bit triggering position measurement when SEL 0 and Bit triggering position measurement when SEL 1 As a SEL bit you can set e g vibration sensor bit VIB to measure position more often when device is moving Bit addresses 0 9999 point to input space while addresses 10000 65535 point to internal registers space ATTENTION Bit states and register values marked with bold in memory map are refreshed at every program cycle All remaining resources are refreshed only when the module is in high energy consumption state awake It is 50 recommended to employ bits marked bold for triggering purposes 7 2 6 8 2 Bit triggering position measurement Performed
71. parameter is optional supplied only if GSM operator requires it Selects device identifier type to be set in data frame header sent from the module Selection list IP address The header of data frame contains IP address of sending device The device is recognized by the data collecting service MTDataProvider on the base of it s IP address Serial Number The header of data frame contains a serial number of sending device The device is recognized by the data collecting service MTDataProvider on the base of it s serial number The advantage of this solution is the possibility of changing module s IP address exchange of SIM card or dynamically assigned IP address without changing MTDataProvider s configuration or giving up a part of it s abilities writing into data base IP address When operating in dynamic IP assignment mode the identification goes by serial number and allows only reception of data from the module 7 2 4 5 Sender IP address check 32 Performed function Data type Range Switches the control of sender s IP address on off Selection list Yes The module exchanges information only with IP addresses present on the Authorized P addresses list Default value Comments 7 2 4 6 Device IP Performed function Data type Range Default value Comments 7 2 4 7 Spooler IP Performed function Data type Range Default value Comments Performed function Data type Range Default value
72. rameter is set to Yes Enables disables geofencing mechanism Selection list Yes Geofencing enabled No Geofencing disabled Default value No Comments Setting this parameter to Yes makes available additional parameters Base position latitude and Base position longitude allowing user to set coordinates of geofencing circle centre and Radius km parameter defining geofencing circle radius If measured position of module is located outside geofencing circle module sets GEOFC bit high and GEOF_C bit high for one cycle GEOFC bit is zeroed when measured position is within geofencing circle 7 2 6 8 9 Base position latitude Performed Allows user to set latitude of geofencing circle centre function Data type Number Range 90 00000 90 00000 N 90 00000 90 00000 S Default value 0 00000 0 00000 N Comments Along with Base position longitude and Radius km parameters allows user to define geofencing circle If measured position of module is located outside geofencing circle module sets GEOFC bit high and GEOF_C bit high for one cycle GEOFC bit is zeroed when measured position is within geofencing circle Parameter is available if Geofencing parameter is set to Yes 7 2 6 8 10 Base position longitude Performed Allows user to set longitude of geofencing circle centre function Data type Number Range 90 00000 90 00000 W 90 00000 90 00000 E Default value
73. reat help during modules startup 15 The LED s have assigned following significance POWER LED indicates module s activity and mode ERR LED indicates an error STA LED indicates GSM status TX LED indicates GSM data transmission RX LED indicates GSM data reception USB LED indicates USB communication on USB port Detailed description can be found in LED sub chapter of Problem solving chapter 4 7 ACTIVATE button ACTIVATE button 16 ACTIVATE button placed on PCB plays different roles depending on activation time e 0 2s the KEY P bit is set High and can be used for triggering events measurements during system tests e 2 8s the module enters into battery replacement mode and does not send events neither measurements nor GPS position In this mode the module can operate without the battery for 10 minutes Leaving battery replacement mode occurs after connecting the new battery or after pressing the ACTIVATE button for 2 to 8 seconds or closing the enclosure lid Entering battery replacement mode is signaled by 2 flashes of POWER LED more details are to be found in LED sub chapter of Problem solving chapter 4 8 GSM antenna Connecting the antenna is necessary for reliable data transmission from MT 713 module SMA type antenna socket is placed on module s front wall Extenal antenna connector Depending on local signal propagation and user s needs different antenna types may be used Proper
74. resis setting 7 2 6 2 3 11 Alarm Hi engineering units Performed Defines Hi alarm level for analogue signal value in engineering function units Data type Number Range 32767 32767 Default value 32767 Comments Upon exceeding the preset value by analogue signal the Hi alarm flag is risen The resetting level of the flag depends on Alarm hysteresis setting 7 2 6 2 3 12 Alarm Lo engineering units Performed Defines Lo alarm level for analogue signal value in engineering function units Data type Number Range 32767 32767 Default value 32767 Comments Upon exceeding the preset value by analogue signal the Lo alarm flag is risen The resetting level of the flag depends on Alarm hysteresis setting 7 2 6 2 3 13 Alarm LoLo engineering units Performed Defines LoLo alarm level for analogue signal value in function engineering units Data type Number Range 327607 32767 Default value 32767 Comments Upon exceeding the preset value by analogue signal the LoLo alarm flag is risen The resetting level of the flag depends on Alarm hysteresis setting 7 2 6 2 3 14 Alarm hysteresis engineering units Performed Defines hysteresis value for analogue signal thresholds The function value is set in engineering units Data type Number Range Q 65535 Default value 100 Comments Setting hysteresis relevant for signal fluctuations prevents excessive activations of ala
75. rm flags 7 2 6 2 3 15 Tracing reslolution engineering units Performed This parameter defines a minimal change of registered analogue function signal to react on Exceeding this value sets a flag AN1_DB AN2_DB and AN3_ DB respective to the analogue input where the change has been detected high The flag is reset after one program cycle to low state 0 45 Data type Range Default value Comments Number 0 65535 100 When set to value O the flag will rise upon every detected signal change by minimum 1 engineering unit Tracing resolution flags are dedicated to continuous monitoring of analogue signal changes 7 2 6 3 Counters CN1 CN8 Module s Counters may be used to count any pulses interpreted as bit or binary input state changes Counters are equipped with two inputs each One incrementing and one decrementing the counter s register value 7 2 6 3 1 Incrementing input Performed function Data type Range Default value Comments Defines the bit which state change increments counter value by 1 Selection list or Number Name from bit list see bit list in Appendices or O 65535 N A Bit addresses 0 9999 point to input space while addresses 10000 65535 point to internal registers space 7 2 6 3 2 Incrementing input s active slope 46 Performed function Data type Range Default value Comments Defines incrementing bit s slope activating counter incrementing function Select
76. rsion 9 2 Modem GSM GPRS Modem type WAVECOM WIRELESS CPU GSM quad band 850 900 1800 1900 GPRS Class 10 Frequency range GSM 850 MHz Transmitter from 824 MHz do 849 MHz Receiver from 869 MHz do 894 MHz EGSM 900 MHz Transmitter from 880 MHz do 915 MHz Receiver from 925 MHz do 960 MHz DCS 1800 MHz Transmitter from 1710 MHz do 1785 MHz Receiver from 1805 MHz do 1880 MHz PCS 1900 MHz Transmitter 1850 MHz 1910 MHz Receiver 1930 MHz 1990 MHz 67 Transmitter peak power GSM 850 MHz EGSM900 MHz 33 dBm 2W station of class 4 DCS 1800 MHz PCS1900 MHz 30 dBm 1W station of class 1 Modulation 0 3 GMSK Channel spacing 200 kHz Antenna 50 Q 9 3 Binary pulse inputs 11 15 Contacts polarization Counting frequency fill 50 250 Hz max Minimal pulse length operating in pulse input mode 0 5 ms Minimal pulse length operating in binary input mode 9 4 NMOS outputs Q1 Q2 Maximum current 250 mA lt 50 UA 10 9 5 Analog inputs AN1 AN3 voltage differential 0 50V Input resistance gt 600 kQ typically 12 bits Accuracy at 25 C temperature 0 2 Accuracy at full temperature range 0 5 9 6 Power output Vo 9 7 Logger 10 240 68 9 8 GPS receiver Frequency L1 Encoding C A Number of channels 6 Accuracy 2 5 m CEP 3 0 m SEP Sensitivity 148 dBm 9 9 Temperature sensor 9 10 Power supply Battery pack 3 alkaline batteries 45V 16Ah
77. s gt ERR If attempted write value gt CNT1 ERR is out of range the response is gt command ERR e g To pass the sign in SMS type 11 2 Memory map All accessible from remote resources of MT 713 module were collected in four address spaces binary inputs analog inputs binary outputs and internal registers Spaces of binary inputs and analog inputs and spaces of binary outputs and internal registers are connected in pairs and contain the same resources The difference between spaces is in the way of accessing the resources for binary inputs and outputs are used for accessing individual bits and groups of bits while analog inputs and internal registers address spaces allow access to the full registers This difference results in a different way addressing In the internal registers and analog input address spaces each address is assigned to the each register while the for binary inputs and outputs address spaces are each address corresponds to individual bit The memory map tables are arranged by their addresses for addressing registers To calculate the addresses of the individual bits in the binary spaces use the following equation register_ address 16 bit_position bit_ address For example in the MT_BITS register from analog inputs address space address 6 on position 7 is the KEY _P bit indicating pressing ACTIVATE button Using that formula you can specify the address of KEY_P bit in binary inputs address space
78. states pulse counters temperature and air humidity as well as internal timers flags 7 2 6 1 Internal resources Modbus ID Performed function Data type Range Default value Comments 7 2 6 2 Terminals Defines Modbus ID of module s Internal resources in Modbus Slave operating mode Number O 255 1 Value of ID Modbus O zer0 renders remote reading of internal resources impossible Sub group Terminals comprises all hardware resources of the module that can be described as inputs or outputs Every resource has a group of parameters assigned Proper configuration of parameters influences the quality of measurements and module s battery life time 7 2 6 2 1 Binary pulse inputs 11 15 Binary inputs of the module operate in two modes e binary input the input operates as negative logic input logical true equals GND potential e pulse input configuration dedicated to counting pulses of external counters and calculating the flow 7 2 6 2 1 1 Max pulse frequency Performed function Data type Range Default value Comments Defines max frequency of counted pulses Selection list 8Hz 16Hz 32Hz 64Hz 128Hz 256Hz 8 Hz For energy savings select lowest frequency required by application 7 2 6 2 1 2 Bit triggering flow calculation Performed function Data type Range Default value Comments Selects any bit from module s address space Change of bit s state to high initiates flow calculati
79. terminal and from 5 5V to 9V for negative terminal Power output Vo used to supply the sensors allows generating potential in 0 5V range with 0 1V accuracy Max drawn current should not exceed 50mA Diagrams illustrating recommended connections of sensors in various configurations Sensor with asymmetric output three leads version powered from Vo output GND N T G ANT AN ANG N Y i D NE 3 16 5 G a1 LZ ae6e66666 555666866 0 0 0 2 0 oe a D sensor with asymmetric output Sensor with asymmetric output three leads version powered from external power Source sensor with asymmetric output Sensor with symmetric output four leads version powered form Vo output 20 ssesseee loooooona 000680608 D D D DD DD D w OUT OUT Y Sensor with symmetric output V 0 5 9V V 5 5 8V R gt 500k0 Sensor with symmetric output four leads version powered from external power source i z E ANT ANZ ANS N Y o OUT OUT Y sensor with symmetric output W 0 5 9W V 5 5 49V R gt 600k0 5 4 GSM antenna Antenna is connected to MT 713 module via SMA socket placed on bottom wall of the enclosure 21 22 Alternatively the antenna may be placed inside the module s enclosure 5 SIM card installation Proper insertion of the SIM card is one of fundamental conditions of module s correct operation Witho
80. tput Vo Analog Power inputs Binary Binary inputs outputs Cable GSM antenna glands connector 4 2 Resources Hardware Resources of MT 713 5 binary inputs pulse or potential free the function is DI binary inputs selected CR ae configuration 1 enclosure opening sensor re opening sensor Al analog inputs 7 0 5 V with possibility of supplying power to the measuring circuit NMOS type outputs open drain 0 30 VDC mono or bistable the function is selected during configuration Temperature sensor temperature sensor built in the microprocessor Vibration sensor binary input 15 can be used for connecting vibration binary input 15 sensor switch with normally open contact e g CM optional 4400 1 GPS Module optional for calculating geographical position and time synchronization Temperature and humidity sensor optional DO binary outputs precise sensor of temperature and humidity inside the enclosure communication interface RS 232 485 in developing stage M BUS optional LCD display with F keyboard optional in developing stage 4 2 1 Binary inputs MT 713 module is equipped with 5 binary inputs DI marked as I1 15 Binary inputs I1 I5 Inputs 11 15 are designed to cooperate with potential free contacts contacts connecting the input and common for all inputs ground The inputs operate in Negative logic meaning the input is high when connected to groun
81. ts MT 713 module is equipped with 2 binary outputs DO marked as Q1 and Q2 Binary outputs Q1 Q2 The outputs are designed to control loads powered by internal source e g light Signaling The outputs are of open drain type controlled by NMOS transistors In High state the output is shorted to the ground by active NMOS transistor In case of inductive type load connected a relay the circuit limiting voltage peaks to max 30V Is necessary Each binary output may be controlled remotely SMS GPRS or locally This means that the state may be altered by any device s bit change e g analog input alert defined in output configuration The outputs may operate as mono or bistable outputs The operating mode as well as length of the pulse in monostable mode is individually defined for each output 4 2 3 Analog inputs MT 713 module is equipped with 3 voltage analog inputs Al marked AN1 AN3 inputs AN1 AN3 The inputs are designed to work with analog sensors generating signal in 0 5V range In order to minimize energy consumption the A C converters are powered for the period necessary to conduct secure measurement The analog inputs are not isolated but due to floating battery powering it does not influence modules resistance to disturbances The module measures values on all inputs simultaneously Measurements may be triggered by any device bit e g clock or binary input The result integrati
82. ut it the data transmission and SMS services are impossible We recommend that inserting of SIM card is done without power on which for the MT 713 module means that both battery cable and USB cable are not attached We recommend inserting the SIM in the holder after the configuration holding the PIN code for the SIM card has been successfully performed Bear in mind that 3 failed attempts of using faulty PIN code the SIM card gets blocked Inserting of wrong pin code is signaled by LED indicators The blocked card may be unblocked using the procedure described in sub chapter unblocking the SIM card of Problem solving chapter SIM card shall be placed with contact fields down in the holder placed on PCB so that the cut off corner points outwards the holder Correctly installed SIM card secures connection between its contact fields and the holder contacts 5 6 Power supply MT 713 module is powered by replaceable internal battery pack with 4 5 VDC 3 6 VDC for lithium batteries nominal voltage Total capacity of new alkaline battery pack is 16 Ah 32 Ah in HC version and 39 Ah for lithium pack 78 Ah in HC version Depending on frequency of data transmission SMS messaging the module may operate for up to 5 years on alkaline batteries or up to 10 years on lithium batteries e The battery plug and the socket are asymmetrical to prevent reverse polarization and secure easy and safe battery replacement Under no circu
83. value N A Comments This field displays a serial number assigned during manufacturing process This is a device s unique identifier 26 7 2 1 6 Modem firmware version Performed function Data type Range Default value Comments Displays GSM modem s firmware version Text N A read only parameter N A The field updates automatically after downloading the firmware 7 2 1 7 Module s firmware version Performed function Data type Range Default value Comments Displays the identifier of current firmware version Text N A read only parameter N A The field updates automatically after downloading the firmware 7 2 1 8 Configuration file version Performed function Data type Range Default value Comments Displays the version of configuration file used to configure the module Text N A read only parameter N A The value depends on firmware version chosen during creation of module definition Additional literal extension enables creation of sub versions within same general functionality 7 2 1 9 Configuration identifier Performed function Data type Range Default value Comments Displays the identifier of current device configuration Hexadecimal N A read only parameter N A The value is increased automatically by 1 after each successful configuration downloaded to the module 7 2 1 10 Last configuration date Performed function Data type Range Default value Comments D
84. w tym handlowe spowodowane lub rzekomo zwi zane bezpo rednio lub po rednio z niniejszym opracowaniem All rights reserved No parts of this work may be reproduced in any form or by any means graphic electronic or mechanical including photocopying recording taping or information storage and retrieval systems without the written permission of the publisher Products that are referred to in this document may be either trademarks and or registered trademarks of the respective owners The publisher and the author make no claim to these trademarks While every precaution has been taken in the preparation of this document the publisher and the author assume no responsibility for errors or omissions or for damages resulting from the use of information contained in this document or from the use of programs and source code that may accompany it In no event shall the publisher and the author be liable for any loss of profit or any other commercial damage caused or alleged to have been caused directly or indirectly by this document Publisher INVENTIA Sp Z 0 0 ul Kulczynskiego 14 02 777 Warszawa Tel 48 22 545 32 00 inventia inventia pl www inventia pl Version 0 90 Warsaw May 2010 MTC Compatibility 0 90 INDEX 2 MODULE S DESTINATION oia ts 5 2 HOW TO USE THE MANDA Lona 5 33 GSM REQUIREMENTS usa o 5 1 MODULES DESIGN HE ees oes sacs i iGO ACC A N 6 AU MODULE S TOPOGRAPHY rra CELA 6 AZ A A S 6 EZ LE BICI INDUS ii
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MT 713 user manual