MT-051-user-manual
Contents
1. ya tona a O naa T in ta w tee dna 22 7 2 1 5 M dem firmware Versions uy ate a en aa e 22 7 221 6 Mod le firmware Version ei ri s d O A aden ada lio Ay o 22 72427 Configuration file VeISION gu na waw dae ES 22 7 2 1 8 Configuration identifier 7 2 1 9 Last configuration date IA IMO wa io AA ace ne WY OE P Sa O owi NN 7 2 2 1 Access to configuration 7 2 2 2 Configuration password linia OLGA 24 UI NN 24 TAPA P BIE a A 0L a MAN E E E aa 24 VRAE aM AOLE PEET 25 1 2 2 07DST OSet 25 L227 Start yeara EREA a y zk A E AE 25 NN 26 II A O O ROA 26 PS a AN 26 7 2 2 9 2 Start of range PS range uuu Ad A A A AE vas AO EA PAZ A 2 3 GSM GPRS iiss O AL n 4 273 14 GSM Pande ide 22 E u sana aa AO OOO ZE W A AE b s 7 2 3 3 DUal SIM sy a DAA Aa Z me ag eee A nun LEM 7 2 3 4 Use of GPRS 7 2 3 5 GPRS transmission retries number 7 2 6 A A tv 7 2 3 7 Spooler action request s s SPOOIEr a ABAD dita drat phami n a do ene ti ee At de TAO SINT SIMD scenes A WAR AWA 2 3 9 1 SIM card PiN number c saa 7 2 3 9 2 ON 7 2 3 9 3 APN USEF NAIM Ot A AA2. s 3333 433333333 3333333 61 10 2 4 RF Marked eqg ibmentusu n d s zan an 61 10 3 EXPLOSIVE ENA RON ME NT 4445 ua na l A ds 61 11 APPENDICE Se u ip e e kes O CON 62 11 1 SMS COMMANDSSYNTAX s ulla nhi daa 62 102 MEMORYAMAP asee deco ARE ON WAREZ 68 11 2 1 Input registers binary inputs address space 69 11 2 2 Holding registers binary outputs address space 73 1 Module destination The MT 051 is a specialized telemetry module optimized for use within simple alarm and flow measuring systems where power lines are not available and environmental conditions are harsh dust high humidity Compact design low power consumption 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 longtime operation on battery supply The module is powered from alkaline battery packs Enclosure dimension indicates nominal capacity of the battery packs S size 3xLR20 M size 6xLR20 L size 9xLR20 Module is equipped with 5 binary counter inputs supporting potential free contacts e g pulse outputs of water meter and internal
3. ER APN PaSSWOMG s isis RN 7 2 3 9 5 logger tecipientsIP addrESS tii A 7 2 3 9 6 Logger tecipie t sUDP p rtn saa casa aa tada 7 2 3 9 7 Event recipients UDP POr uu a su uciec aqapana hui assaka DA AZ EPDE PNA do 52 3 9 9 Device identifien zaa aa 1 2 3 939 ROAMING GPRS es e AA A AAA A day vo bon daye A ia A 724 1 Daily SMS limit sede iwo wi tek A RE AG yon A tdi 1 24 22 ROAMING TORSMS it NA AA Pw ea ma pi A sae ees 7 2 4 3 Number of SMS sed AE ETES ad 7 2 4 4 Answer for blankSMS tilda ai litis 7 24 52 SMS limitiexceediinformations cc8 ia kd es nei is nin i anh te 7224 6 Phone number tinto recipient aaa arta 7 2 4 7 SMS limit exceed information text 7 2 A 8 Formats ati czo AA cie AY A EE 7 2481 Date forma tasa NT 72 04 82 Time formats s EAEE ETA E TE T ATE nqa Z kaban 7 2 4 8 3 General format 1 m RE 7 2 4 8 4 General format ii AT A A a AEO GI Auzu Mi 72 84 85 StatUS INCSSAG 7 2 4 9 Symbolic names 7 2 4 9 1 Number of symbolic names 7 2 4 9 2 ymboOliC NAME a aaa a a a aa AAAA si eiia RA SPACE a eos 7 2 4 9 4 Register bit NUMBEP wwa awa A A assi kon AA A O pos AA a pe Way dA ai PAIO Macr OSes zez O OSO A acinar ells 7 2 4 10 1 Number OF MAGRO e ged e ci bee O ee nd 2 0 10 2 Macro name asas s s
4. z U 6 ATs MODULE TOPOGRAPHY z n thts kwi Va kaa aa pa lao aa m y s s ashi Ad to 6 AZ RESOURCES a ULU D Sm a W gunu amu a S 7 ADT 2 BInQry IN PUES a s sa wid dE R a W RC 7 A 2 2 Temperdt re sensor season A AN 8 4 2 35 Redi Time CoOk RNA 8 AD AS FIS s t u Sab qa siapa O ata isis pa A AE 8 4 2 5 L0996Tr COO AO WORA OD aa RN A 9 AS Bi a a cue Cee vans A Ba ELE AAA OP EES 9 ABACO AED A enue ban AW se baa a NEE EEE tudes CEE el ed isons 10 AS POWER SUPPLY Sc a ta 11 AGE LED INDICATORS aa inei ao dia ddd 12 Ak GSIMUANTENNA wie a a dio BH 13 4 8 REED SWITCH INPUT zat iwa eee de kan ake lo a E kuna aha ab ka ni WBK dua AA 14 4 9 5NCLOSURE E a E cae oes OP a da id REA ed 15 5 CONNECTION DIAGRAMS eke res veseereseokos uu seen sosendodeseosesdeseseebooseyssosessosevos 16 R ROR 5 2 GSM ANTENNA SIM CARD INSTALLATION Seas 17 5 4 POWER SUPPLY 7 CONFIGURATION uu cones ase EEE EYES Aka AYIN 20 GENERAL INFORMATION e ki a OE a eos 20 7 2 PARAMETER GROUPS A EEEE O de cock P pa ii upa a na 20 VAPA N n o 0 A EEE ZEE RZECE EEEE DAR 21 TZ Module name ii EWA EE A A AO EA S i 21 7201 2 Module type uu ua aoi OP AAAA A eet ie ae eee 21 ZA IMEWNUMD ER a sale nasb a AP o ri lo s s di 21 1 21 42
5. Hardware Resources of MT 051 binary inputs pulse or potential free the function is selected during configuration 1 temperature sensor integrated in the microprocessor 4 2 1 Binary inputs MT 051 module is equipped with 5 binary inputs DI marked as I1 I5 Binary inputs Inputs are designed to cooperate with potential free contacts contacts connecting the input and common for all inputs ground The inputs operate in positive logic meaning the input is low when connected to ground and high if the circuit is open The contacts are polarized with potential of 2 8V in high 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 and other actions e 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 Irrespectively to chosen mode of operation states of the binary inputs are monitored by the module in both energy
6. T YYA Nid sjdwaye Guus ua Nid S10W OU paxd0 q 0162 T INO Nid pepeyep Jou WIS T WIS ON asn u ZWIS T 1850 UI TWIS 03501 WIS wapou IDnwa 1 oc a FIVIS WSD n z UN In il lt r O Z Ons YUM UONEGJIUNWWOD Palio T YO WIGOW 5314 sn3e3s WSD plo281 m Gutaes pasne gt juana ylym usInBunsip ow 8 6470 2 juana 64 770 Jequnu 1u A 000x0 Ed ura rote e ele ls ele pe zi si vi sr xan faa p z suon un NLY Snqpow Ajuo peau adeds 55 s13 s169 1 1nduI 3 2605 ssoippe s ndul Aseuig s sib li 40041 T Z TT 0101 GI 0101 zl 0101 El 91 LI 91 zl 91 El 91 bi 07 GI PSEM 0101 ti sBe J wieje MOL MO m 8TOOXO sej wueje MOL UGIH m 1100 0 andui 2 se gt i x ji JUO SI 40 3381 MOL p eln l 1567 SI 13 ZE 210020 andui 2 se z ji JUO y 101 3381 MOL pajejnojeo 1567 tl 13 ZA andui Gununo se x Ji JUO 10J 3381 MOL pajejnojeo 1567 el 13 SBM 0080 andui 2 se ul x painbBijuod Ji 40 21 10J 3381 MOL pajejnojeo 1567 el 13 SA PL andui Gununo se X painbBijuod ji JUO TI 10J 3381 MOL p eln l 1567 Tl 13 IBM epou andui Guquno gt se paunbiyuoo SITLND HOT zeu 1100 0 LT J AJUO SI 40 Jsqunu sind 6201 0100 0 91 andui Gununo se parnbiyuo PUNO HOT
7. e SIM card e GSM antenna 5 1 Binary inputs 16 Binary inputs of MT 051 operate with positive logic meaning that high state occurs when the input is left floating and low state occurs when input is connected to ground In open circuit the potential in reference to GND pin is not higher than 2 8 VDC Inputs work only with potential free contacts like relay outputs keyed transistor outputs Below you can find recommended input connection diagram All binary inputs have same reference module s electrical ground which is available at input connector and labeled as GND To maintain IP rating of the module user shall ensure that connecting cable entering module is correctly secured and sealed by a cable gland It is recommended to use cables with a circular cross section Usage of cables with different cross section does not warrant maintaining tightness of the system 5 2 GSM antenna MT 051 module comes equipped with angle SMA antenna screwed directly on PCB antenna socket Absence of external antenna connector helps keep high environmental protection rating GSM antenna connector Place for external GSM antenna SMA connector On user demand module can be equipped with external SMA connector for GSM antenna it will still maintain overall 1067 rating but it is up to the user to secure antenna connector itself from water etc 5 3 SIM card installation Proper insertion of the SIM card s is one of fundamental conditi
8. Comments Inactive DST correction is not performed Inactive 7 2 2 5 Correction performed The parameter selects whether module will perform DST correction inside or outside of selected time range Selection list Within range The module will perform DST correction when current date is within specified range Outside range The module will perform DST correction when current date is outside specified range Within range DST correction is performed in summer months to compensate for earlier sunrises and allow people to effectively use sun light especially in evening hours Consequently Within range setting is applicable on northern hemisphere where DST correction is used during mid year months and Outside range setting is applicable on southern hemisphere where DST correction is used during start and end of the year months Specifies the time offset used as DST correction Selection list 00 15 02 00 01 00 Selects the start year for table of DST correction start end dates Number 2012 2030 2012 25 7 2 2 8 End year Performed Selects the end year for table of DST correction start end function dates Data type Number Range 2012 2030 Default value 2012 Comments Value should not be less than Start year 7 2 2 9 List of years The list contains entries for every year in range specified by Start year and End year parameters Each entry contains Start of range and End of range parameters
9. Minimal pulse length operating in 2 ms pulse input mode Minimal pulse length operating in binary input mode 9 4 Logger Memory type FLASH 28 000 9 5 Temperature sensor HATE 25 100 9 6 Power supply Battery pack depends on enclosure A 3 alkaline batteries 4 5 V 16 Ah Poe ra height emr 6 alkaline batteries 4 5 vaz Ah M size enclosure height 125mm L size enclosure height 175mm 9 alkaline batteries 4 5 V 48 Ah Mean current consumption with B active GSM modem 20mA without GPRS transmission Uu tisa pulses 59 9 7 Drawings and dimensions 60 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 telemetry module s antenna may have negative influence on its 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 a
10. Range 1 16 Default value 1 Comments N A 7 2 4 9 2 Symbolic name Function Defines user friendly name Data type Text Range 0 50 characters Default value IREGO IREG15 Comments N A 7 2 4 9 3 Space Function Selection of register address space assigned to symbolic name Data type selection list Range Holding registers Internal registers address space registers readout Input registers Analog input address space registers readout Binary outputs Internal register address space bits readout 37 Binary inputs Analog register address space bits readout Default value HB Comments N A 7 2 4 9 4 Register bit number Function This parameter together with the parameter Space defines the register address or bit assigned to symbolic name Data type number Range 0 65535 Default value 0 Comments N A 7 2 4 10 Macros Macros group contains up to 16 use defined macros Macro may contain ASCII signs symbolic names SMS commands and other macros that will be put in SMS text In order to use a macro in SMS put it name preceded by sign in SMS text send from mobile phone or defined in Rules gt SMS sending or in other macro Using macros makes composing complex SMS texts and queries much more convenient and user friendly 7 2 4 10 1 Number of macros Function Declares number of user defined macros Data type Number Range 1 16 Default value 1 Comments N
11. example to read an input register 4 in hexadecimal format one should use a command H IR4 and module s answer will be gt 1FC8 Prefixes can also be used with write commands Command can operate on more than one register Register count can be included in prefix after character denoting data format which is then mandatory For example command D2 HR2 123456 causes write 123456 to two registers HR2 and HR3 32 bit variable Full list of available prefixes is enclosed below User can define in MTManager own symbolic names in module s config and assign them to registers Then such names can be used instead of register symbols It allows user to define friendly names for registers and to erase access to bit values For example 63 64 if user has defined symbolic name input1 and assigned it to bit register 96 of internal registers space which is equal to bit of IR6 register then sending a command input1 causes module to answer value corresponding to bit 1 of IR6 register There are several predefined internal symbolic names Apart from symbolic names user can define macros A macro is defined as a name and a text assigned to this name Parsing of received message begins with macro expansion Parser looks for words beginning with sign and replaces such names with assigned strings Once macro expansions ends new message text is being interpreted and commands executed It allows user to place both commands
12. function Defines number of attempts to send data through GPRS network if the reply to original transmission does not arrive in a timely manner specified by Transmission timeout parameter Data type Range Default value Comments 7 2 3 6 Transmission Performed function Data type Range Default value Comments Number 0 255 3 Setting the value to O 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 timeout Defines the wait time for reception confirmation of sent data frame in seconds Number 1 60 5 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 5 20s One has to bear in mind that long waiting time consumes the energy and shortens battery life time 7 2 3 7 Spooler action request Performed function Data type Range Default value Comments Selects whether module shall send spooler request frames Selection list No Module will not send spooler request frames Yes Module will send spooler request fram
13. 4000X0 ST JI Aluo p 404 13341102 Jaquunu sind ejo 3000X0 ti is IHIH TI IHIH Zl IH TI IH Zl IH l IHIH Pl IHIH GI IH bl IHIH El IH GI 0707 TI m N o o N N N N andui Guquno gt se parnbiyuo EIT LND H07 zeu 000 0 ET H AJUO 40 4 3uno Jaquunu sind 040 2000X0 ZT andui Gu 61 8000XO EE y AJUO 21 R eines s n uch SET HOT 2231 vwoooxo OT 6605307 p z suon un NLY Snqpow Ajuo peau adeds ssaippe 5 51 40041 uond s q spuoodes Ul oz00x0 ce uno 34011 uoiss s 50 1 3NIL 5440 IHO7 ZE 1 SHdD SANEJNWNO lhpoli 4100X01 TE spuodas ul FTOOXO o Jajuno gt awn uojss s WSO aANe nUIND ainpow JWIL WSO HOT zeu atooxo 62 I A uJeje 4614 Aoqe a1njeladula T IH 431 I A WJE E moj mojaq T 07 dWIL I A W eje mojaq abeyon la1eq T 18 I 1N3A4 2100X0 82 uo Jamod uo Jo Aq 12524 ainpou T LSY ATG 32 T 103 JOS SGEJJ UDA 6100X0 Ir Que lolr iz is v s lz s 6 or rrizr esr rr sr oaa 000 ssempv p z suon un NLY Snqpow Ajuo peau adeds ssaippe 5 51 40041 uond s q Sl uo WJeje MOL Aue wueje uajsew TY N GI pl uo wWueje MOL Aue wueje uajsew TY N pl e uo wJeje MOL Aue wue
14. 9200 0 8e UOISSIWISUEJ Juousunseau auwndn ajnpop 3 SZ00X0 LE Spuo2as Ul 4 3uno aun uoissiusueu 0407 200 0 9 Juawainseaw AAIe SA EJNUND 2jnpow FWIL LOV HOT Zeu EZOOXO SE 2555577777 x ma ss p z suon un NLY Snqpow Ajuo peau adeds ssaippe 5 51 40041 73 A a000X0 II andui Sununo se parnbijuo ji Aluo HoT zedu 8000 0 TT voooxo OT andui Gununo se parnbijuo ji Aluo HOr ZEIU 6000X0 6 GI 40 2 Jaquunu sind ejo tl 40 1ajuno gt Jaquinu sind ejo 1 8000X0 andui Bulijuno se poun6ijuo ji JUO UHoT zesul 1000 0 2 101 Jajunoo Jaqwnu asjnd e 0 IHOTIZEAUI 9000x0 9 andui Sununo se poun6iyuo ji Aluo HOTZE S000X0 9 Z 40 49 UNOD Jsqunu sind je OL H C 17000 0 KA andui Gununo se poun6iyuo ji Ajuo UHoT zesul EOOOXO ER T 40 4 3uno2 Jaquunu 85100 ejo Z000X0 a 55 5 SPP 9 M T peau suon un NLY SNqpow L peE31 adeds ssaippe 5 61 3 2605 ssoippe sindino Aleuiq 542351624 BulpioH Z Z TT spuoxas ul Jejunoo M 2 aw APANJE Wapou WSS SA EJNWN gt ANPOIN FWIL WJ3GOW 9nul 2600X0 SPO ul x d ls 512348 sjnpow spuo2 s Jo JaquINN d3315 TA 8200 01 65 TER lo r z e r s s e s s or rr zr er vr st osa 0001018 41 p z suon un NLY Snqpow Ajuo peau adeds ssaippe 5 51 40041
15. A 7 2 4 10 2 Macro name 38 Function Defines macro s user friendly name Data type Text Range 0 20 characters Default value MO M15 Comments N A 7 2 4 10 3 Macro s content Function Data type Range Default value Comments The content that is inserted into the SMS message instead of macro name text 0 160 characters date time N A 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 of IP addresses serves to granting access to configuration and data reception privileges 7 2 5 1 Number of phone numbers Performed function Data type Range Default value Comments Defines the length of phone numbers list authorized to exchange SMS messages Number 22 1 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 SMS commands syntax chapter in Appendices 7 2 5 2 Number of IP numbers Performed function Data type Range Default value Comments Defines the length of the IP addresses list Number 1 32 i The value of this parameter may vary as the result of adding deleting when using the context menu operating directly IP addresses l
16. SA E E O 7 2 6 3 1 GSM transmission timer Measurement timer nono nanonann conan cnc nsn 47 PASA s b iv Aa een aes eee wy easy eee eek 47 2 6 3 1 2 Start HHEMM e u nu KE aa e hile kh eee lo udub 47 TELE PONO a A ad AO 48 4 2 0 4 1eMperatUre ii AA A Ae 48 4 2 6 4 45 High temp alarm iia ya ira 48 7 2 6 4 2 Low tempalarm Clic des 48 7 2 0 4 3 Temp hysteresis n aa O A ees ee ce WAWY COSA 49 7 2 726M ctiyitye Za un w n n n d ns OWA O RE GEO 49 7 2 7 1 Active after SMS transmission MIN nna aE EE E Ea 49 7 2 7 2 Active after GPRS frame transmission min a 49 7 2 8 RUIE szy A AAA AAA saa diaz w s r n TAST SMS sending nei wa dra ku aaa daaa saysa d ys 7 2 8 1 1 Number of SMS sending rules 7 2 8 2 SMS sendine rule 1 32 nu u EE Araya mil iii 7 2 8 1 2 1 Triggering source 7 2 8 1 2 2 Triggering flag ci ec ee ieee easiness 4 2 8 1 2 3 Miggering AN NU as aa AA sic 7 2 81 2 4 SIODE zo Ao a AE AA O A A IE GA 7 2 8 1 2 5 Reciplent number isa yi i ddd a 7 2 8 1 2 6 Send status message R R S R sas RAZA 7 2 8 102 7 O t tt a un a on l a ke Sag a a san 7 21 82 Data sending cua dk na Suyu Shu a Sisku pasa pu Sh Shui sus 7 2 8 2 1 Number of data sending rules 7 2 8 2 2 Data sending rule di sua O se
17. and symbolic names in macro text Furthermore macros can contain another macro names nested macros but only those defined higher in macro list For example if configuration contains following macros in order shown No Macro name Macro text mtime input O counter D2 HR2 mtime inputs B5 1B96 1R57 SMS sent then macro mtime used in macro number 3 state will be correctly expanded and SMS text state after macro expansion before executing commands will be changed to date time inputs B5 TB96 IR57 SMS sent but expansion of macro 1 will not contain text assigned to macro name mtime therefore text being executed after macro 1 was used will look like mtime input 01011 counter D2 HR2 which in turn causes module to send back SMS containing gt mtime input 01011 counter 123 Register spaces Module s firmware distinguishes two register spaces Input registers and Holding registers Access to register space can be made by calls to 16 bit registers or by calls to individual bits Symbol Description HR 0 n Holding registers space Read write access 16 bit registers IR O n Input registers space Read only 16 bit registers Bit access to holding registers space One can access individual HB 0 16 n bits or groups of bits Read Write Bit mapping is as follows m bits 0 15 correspond to holding register 0 bits 16 31 to holding register 1 and so on Bit access to input regist
18. consuming and sleep mode Apart from five binary inputs module provides sixth input activated by magnet reed switch This input can be used to trigger specific actions wake up the module send event data SMS message switch GSM modem on activate deep sleep mode Switch position is marked on outside of an enclosure with a red dot Activation of a switch can be done through the enclosure 4 2 2 Temperature sensor Integrated in the module temperature sensor measures temperature inside the enclosure Sensor allows detection of operation on the borders or beyond borders of allowed operating temperature range 4 2 3 Real Time Clock MT 051 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 or DST correction into consideration The timer used by timers respects the time zone and DST settings Real Time Clock may be synchronized e automatically with the MTSpooler at every reporting to the server e manually using the MTManager the clock synchronizing is described in the program documentation It is recommended to manually synchronize module s real time clock during the first configuration performed using the MTManager program 4 2 4 Timers MT 051 module is equipped with 1 or 2 programmable synch
19. from the battery pack with 4 5 VDC nominal voltage 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 Battery connector power supply socket Total capacity of new alkaline battery depends on size and type of battery pack Three version are available S size 16Ah 3xLR20 alkaline batteries M size 32Ah 6xLR20 alkaline batteries L size 48Ah 9xLR20 alkaline batteries The nominal capacity of the battery is 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 When module is being configured via USB it is powered from a PC This allows module to reduce battery consumption Module connected to PC via USB is constantly in high energy consumption state is awake and logged to GSM GPRS network 11 4 6 LED indicators LED indicators placed on MT 051 module s PCB are a help during modules startup LED diodes The LEDs have assigned following significance LED1 indicates module Measurement timer activity and GPRS transmission LED2 indicates GSM GPRS connection and GSM signal strength LED3 indicates module s state active asleep and SI
20. 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 Kulczy skiego 14 02 777 Warszawa Tel 48 22 545 32 00 inventia inventia pl www inventia pl Version 1 00 Warsaw December 2013 MTC Compatibility 1 00 INDEX T MODULE DESTINATION c owi a SI w 5 2 HOW TO USE THE MANUAL S id Al 5 3 GSM REQUIREMENTSS ke dni uu ua M Y s s 6 A MODULE DESIGN zzo s
21. temperature sensor The module ensures extremely low power consumption by deactivation of GSM GPRS modem when there is no data transmission Measurement data can be recorded in non volatile Flash memory with precise timestamps The module is supplied with user friendly configuration environment and communication driver providing OPC ODBC and CSV interfaces for data acquisition and software for remote management via GPRS including remote configuration and firmware upgrade For better acquaintance with the module and optimizing the power consumption we recommend reading configuration guide 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 design this chapter presents the basic information about module resources and design elements Her is the information about how does the module work and how and where it may be employed Module connection diagrams contains diagrams and procedures for connecting MT 051 with water meters and external elements like antennas or the SIM card First start of the module contains recommended first start procedure Configuration this chapter presents information about all available configuration parameters All parameters concern firmware version compliant with documentation version Maintenance and problem solving here is described procedure of unblocking locked SIM card and LED signaling schemes T
22. user defines General format 1 as DD MM YYYY HH MN SS and when it will be applied to RTC registers by a SMS command FT1 IRO returned string will look like gt 25 02 2010 08 51 33 User should define at least Date format and Time format strings this will ensure that use of LT UT LD and UD prefixes return expected data Other examples Read input registers 20 IR20 Write value 1 to holding register 2 HR2 1 Binary representation of input register 4 readout B TR4 Read flag bit 4 4B IB4 Write hexadecimal value O1AC to holding register 0 H HRO 01AC 67 11 2 Memory map 68 All accessible from remote MT 051 resources were collected in four address spaces binary inputs input registers binary outputs and holding registers Spaces of binary inputs and input registers and spaces of binary outputs and holding registers are connected in pairs and contain the same resources The difference between spaces is in the way of accessing the resources binary inputs and outputs are used for accessing individual bits and groups of bits while input and holding registers address spaces allow access to the full 16 bit registers This difference results in a different way of addressing In the holding registers and input registers address spaces each address is assigned to the each register while the for binary inputs and outputs address spaces each address corresponds to individual bit The memory map tables are arra
23. value of this field updates automatically after successful configuration change This parameter helps tracing unauthorized configuration changes 7 2 1 10 Last reading time Performed function Data type Range Default value Comments 7 2 2 General Displays internal clock time read upon change of time or during last configuration reading Text Compliant with Time and Date format N A This field s value may be used for verifying last access time and setting real time clock RTC of the module Group General consists of parameters concerning module RTC DST handling configuration protection and other basic settings 7 2 2 1 Access to configuration Performed function Data type Decides whether access to module s configuration is granted to all remotely connecting clients or only to clients using IP addresses present on the list in Authorized numbers IP section Selection list 23 Range Default value Comments All Configuration access allowed for any client List Configuration access limited to clients present on the list All This parameter affects only remote access to module s configuration local access by USB cable is always possible 7 2 2 2 Configuration password Performed function Data type Range Default value Comments 7 2 2 3 Time zone 7 2 2 4 DST correction 24 Performed function Data type Range Default value Comments Performed function Data type Rang
24. which together define time range DST correction in given year will be performed inside outside specified by Correction performed parameter specified time range 7 2 2 9 1 Year Performed Presents the year for given row of the list function Data type Text Range read only parameter Comments N A 7 2 2 9 2 Start of range Performed Defines the date and time it which time range starts function Data type Date and time DD MM HH MN where DD day MM month HH hour MN minute Range 01 01 00 00 31 12 23 59 Default value Variable according to law regulation for Poland Comments Entered value must strictly adhere to format specified Entering wrong value e g without space character between date and time part using different separators no leading zeroes will effect in DST being inactive Value shall be expressed in local time including DST If time point will be used as end of DST correction i e correction performed outside specified range value should be set in UTC time zone DST time Likewise if time point will be used as start of DST correction i e correction performed inside specified range value should be set in UTC time zone time 26 7 2 2 9 3 End of range Performed function Data type 5 Range Default value Comments 7 2 3 GSM GPRS Defines the date and time it which time range ends Date and time DD MM HH MN where DD day MM m
25. APN name renders login to GPRS impossible 7 2 3 9 3 APN user name Performed function Data type Range Default value Comments 7 2 3 9 4 APN password Performed function Data type Range Default value Comments Defines user name for APN access 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 parameter is optional supplied only if GSM operator requires it 7 2 3 9 5 Logger recipient s IP address Performed function Data type Range Default value Comments Defines IP address of datalogger recipient server IP address 0 0 0 D 255 255 255 255 0 0 0 0 When recipient address is set to 0 0 0 0 module will not transmit datalogger records However records are still collected according to module s setup As internal memory for datalogger has limited capacity this can eventually lead to memory overflow and erasing of oldest records 7 2 3 9 6 Logger recipient s UDP port Performed function Data type Range Default value Comments Defines UDP port number to which datalogger frames will be transmitted Number 1 65535 Z110 31 7 2 3 9 7 Event recipient s UDP port Performed function Data type Range Default value Comments
26. Authorized numbers gt Phone must have at least one phone number defined 52 Performed function Data type Range Default value Comments 7 2 8 1 2 7 SMS text Performed function Data type Range Default value Comments 7 2 8 2 Data sending 7 2 8 1 2 6 Send status message Selects whether SMS text should contain standard status message or text defined within SMS rule Selection list Yes SMS will contain message as defined by Status message parameter in SMS group No SMS will contain message as defined in SMS rule No Defines the text of SMS message sent after triggering of rule Text Letters numerals and special characters max 160 characters empty User can enter symbolic names and SMS commands following SMS syntax rules Data sending group consists of two parts general parameters common to all rules on the list e list of data sending rules 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 The number of rules may be defined by setting Number of data sending rules parameter Performed function Data type Range Default value Comments 7 2 8 2 1 Number of data sending rules Defines the n umber of data sending rules Number 1 Reducing the rules number does not delete settings
27. Defines UDP port number to which event frames will be transmitted Number l 65535 7110 7 2 3 9 8 Device identifier 7 2 3 9 9 Roaming GPRS 32 Performed function Data type Range Default value Comments Performed function Data type Range Default value Comments 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 its 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 its 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 its 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 Defines whether the module is to use GPRS transmission when roaming in foreign GSM network Selection list On In absence of home network availability the module will try to log in to available foreign GPRS network Off Using of GPRS networks other than home network disabled Off I
28. GSM frequency bands used by GSM modem Selection list EU 900 1800 MHz Modem will use European GSM bands US 850 1900 MHz Modem will use US GSM bands EU 900 1800 MHz Setting incorrect band will prevent module from logging in to GSM network 27 7 2 3 2 Module IP Performed function Data type Range Default value Comments 7 2 3 3 Dual SIM 7 2 3 4 Use of GPRS Performed function Data type Range Default value Comments Performed function Data type Range Default value Comments 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 Selects whether module should use one or two SIM cards Selection list No Module will use one SIM card Yes Module will use two SIM cards No If only one SIM card is to be used it shall be placed in holder described as SIM1 Card specific parameters e g PIN number APN name Roaming etc are set individually for each card Selects whether module will use GPRS service Selection list No Module will not use GPRS service only SMS communication possible Yes Module will use GPRS service remote access and data transmission possible Yes 7 2 3 5 GPRS transmission retries number 28 Performed
29. M card used Detailed description can be found in LED signaling subchapter of Maintenance and problem solving chapter 12 4 7 GSM antenna Connecting the antenna is necessary for reliable data transmission from MT 051 module GSM antenna socket of SMA type is placed on module s PCB board Module comes equipped with angle SMA antenna placed straight on antenna socket GSM antenna connector Depending on local signal propagation and user s needs different antenna types may be used Proper antenna placement is important during the module installation In case of low GSM signal level using the external directional antenna or high gain antenna may be necessary On user request MT 051 can be equipped with external antenna connector SMA type 13 4 8 Reed switch input 14 Near the USB and battery connectors in place marked on module housing there is spot which is used as reed switch test input It is activated by putting a magnet on marked spot for no less than 3 seconds and then moving it away Activation of reed input is indicated by LED1 being lit for 3 seconds Reed switch Activation of this input causes setting of REED flag and wakes module from sleep mode Furthermore activating reed switch for three times in several seconds intervals triggers GSM login procedure This feature can be used to trigger events and or during telemetry system tests If reed switch is continuously active for more than 20 seconds modul
30. Telemetry Module MT 051 User Manual telemetria pl in entia CE Telemetry Module MT 051 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 v1 00 MT 051 2013 Inventia Ltd Wszelkie prawa zastrze one aden fragment niniejszego dokumentu nie mo e 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 w tym handlowe spowodowane lub rzekomo zwi zane bezpo rednio lub po rednio z niniejszym
31. ate This parameter is available only in counting input mode engineering units Defines HiHi alarm level for flow value in engineering units Number 0 327607 32767 Upon exceeding the preset value by calculated flow volume the HiHi alarm flag is risen The resetting level of the flag depends on Alarm hysteresis setting This parameter is available only in counting input mode engineering units Defines Hi alarm level for flow value in engineering units Number O32767 32767 Comments Upon exceeding the preset value by calculated flow volume the Hi alarm flag is risen The resetting level of the flag depends on Alarm hysteresis setting This parameter is available only in counting input mode 7 2 6 1 13 Alarm Lo engineering units Performed function Data type Range Default value Comments 7 2 6 1 14 Alarm LoLo Performed function Data type Range Default value Comments Defines Lo alarm level for flow value in engineering units Number 32767 0 Upon exceeding the preset value by calculated flow volume the Lo alarm flag is risen The resetting level of the flag depends on Alarm hysteresis setting This parameter is available only in counting input mode engineering units Defines LoLo alarm level for flow value in engineering units Number 0 32767 0 Upon exceeding the preset value by calculated flovv volume the LoLo alarm flag is ri
32. ault value Comments 7 2 8 2 2 3 Triggering input Performed function Data type Range Default value Comments 7 2 8 2 2 4 Triggering slope Performed function Data type Lo current temperature measurement below Lo alarm level If Triggering source is set to Timers GSM transmission timer GSM transmission timer generated pulse Measurement timer Measurement transmission timer generated pulse If Triggering source is set to Flags REED REED flag set after triggering reed switch with magnet LO_BAT LO_BAT flag set as a result of supply voltage drop below Low voltage alarm level DEV RST DEV RST flag set as a result of module reset either by vvatchdog or connecting povver N A This parameter is available only when Triggering source set to value other than Vone or Binary inputs Selects triggering decimal input for data sending rule Selection list Binary or counting input 11 12 Binary or counting input 12 13 Binary or counting input 13 14 Binary or counting input 14 6 Binary or counting input 15 77 This parameter is available only when Triggering source set to Counting inputs or Binary inputs Selects triggering pulse slope of selected digital input Selection list 55 7 2 Range Default value Comments Performed function Data type Range Default value Comments Bi 0 gt 1 Rising edge on binary input triggers the rule Bi 1 gt 0 Falling edge on bina
33. authorized to communicate with the module Resources group GSM activity group Rules group 7 2 1 Header contains parameters for programmatic and hardware resources related to reading and processing measurement data contains parameters extending GSM GPRS log in time after reception of SMS or incoming data contains lists of transmission tasks to perform when defining criteria are met 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 function Data type Range Comments 7 2 1 2 Module type Performed function Data type Range Default value Comments 7 2 1 3 IMEI number Performed function Data type Range Comments Presents the name assigned to the module during configuration Text None read only parameter N A Displays the type of configured module Text N A read only parameter N A N A Displays GSM modem s IMEI number Number N A read only parameter N A 21 7 2 1 4 Module serial number Performed function Data type Range Default value Comments Displays the serial number of configured module Text N A read only parameter N A This field displays a serial number assigned during manufacturing process This
34. card that is going to be placed in the module unless the card is set in pin less mode 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 the 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 3 Inserting the SIM card After downloading the first configuration disconnect the USB connection insert the SIM card s 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 Maintenance and problem solving chapter Login sequence 19 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 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 tim
35. ccess to the module for e g configuration data read out etc This value is used for any GPRS frame sent datalogger event configuration etc Increasing activity time shortens battery life time 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 49 7 2 8 1 SMS sending SMS sending group consists of two parts general parameters for all rules e list of SMS sending rules 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 rules window The number of rules may be defined by setting Number of SMS sending rules 7 2 8 1 1 Number of SMS sending rules Performed function Data type Range Default value Comments Defines the number SMS sending rules Number Do L Reducing the rules number does not delete settings of rules until writing the configuration to the module 7 2 8 1 2 SMS sending rule 1 32 Each SMS sending rule on the list is defined by mandatory parameters like Recipient Triggering source and Triggering flag The maximum number of rules is 32 7 2 8 1 2 1 Triggering source Performed function Data type Range Default value Comments 50 Selects source of triggering ev
36. crease per minute Hour Defines value increase per hour None If this parameter is set to None no flow scaling will be performed flow value will be calculated for a period of time from last calculation i e flow number of pulses pulse weight Consequently if flow calculation interval changes e g due to change of active flow control set or rise of an alarm calculated value will also change even if actual flow rate remains the same This parameter is available only in counting input mode 43 7 2 6 1 9 Pulse weight Multiplier eng units Performed function Data type Range Default value Comments Defines pulse weight Multiplier Number 1 1000 1 The value of the parameter is multiplied by counted pulses and next divided by value of parameter Pulse weight Multiplier eng units in order to calculate flow rate This parameter is available only in counting input mode 7 2 6 1 10 Pulse weight Divisor eng units 7 2 6 1 11 Alarm HiHi 7 2 6 1 12 Alarm Hi 44 Performed function Data type Range Default value Comments Performed function Data type Range Default value Comments Performed function Data type Range Default value Defines pulse weight Divisor Number 1 1000 1 The value of the parameter Pulse weight Multiplier eng units is multiplied by counted pulses and next divided by value of this parameter in order to calculate flow r
37. d value Number 2 5 4 0 3 4 The LO_BATT alarm flag is recommended to dispatch the information about necessity of battery replacement 7 2 6 2 2 Voltage hysteresis 46 Performed function Data type Range Default value Comments Defines hysteresis value for power supply voltage alarm thresholds Number 0 1 2 0 0 2 Setting hysteresis relevant for power supply voltage fluctuations prevents excessive activations of alarm flags 7 2 6 2 3 Battery alarm notification interval Performed function Data type Range Default value Comments 7 2 6 3 Timers Defines the interval for generating low power supply voltage alarm Selection list 1 hour 2 hours 3 hours 4 hours 6 hours 8 hours 12 hours 24 hours 24 hours When the power supply 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 voltage hysteresis battery replaced the module will stop generating alarms Group Timers contains configuration parameters of module s timers The GSM transmission timer acts as a time base for triggering GSM network attachment and transmission of data stored in datalogger memory The Measurement timer triggers flow calculations for counting inputs Both timers have similar settings with GSM timer having slightly longer time interval list up to 7 days oppo
38. ding on frequency of data transmission SMS messaging the module may operate for up to 5 years on one battery pack The battery plug and the socket are asymmetrical to prevent reverse polarization and secure easy and safe battery replacement Under no circumstances an external power supply should be used Powering from improper sources may damage the module permanently 18 6 First start of the module First start of the MT 051 module requires a few simple activities We recommend supplying the power via USB in order to save the battery Please follow these steps 1 Connect signal wires Recommended connections diagrams for signal wires are in Module connections diagrams chapter 2 First configuration of the module The scope of first configuration of MT 051 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 on the MTManager installation DVD MTDisc In order to login to GSM GPRS network the basic information about the SIM card and APN have to be provided to the module separately for both SIM cards In GSM GPRS group Use of GPRS Yes if using SMS and or GPRS packet transmission is intended No if the module is going to use SMS mode only In SIMi SIM2 subgroup of GSM GPRS group SIM card PIN number provide PIN code for SIM
39. drops more than half degree below the threshold value 7 2 6 4 2 Low temp alarm C 48 Performed function Data type Range Default value Comments Defines the low temperature threshold value When crossed the module rises a TEMP_Lo flag Number 25 80 10 Resetting of the TEMP_Lo flag occurs when the temperature rises more than half degree above the threshold value 7 2 6 4 3 Temp hysteresis Performed function Data type Range Default value Comments 7 2 7 GSM activity Defines hysteresis value for temperature alarm thresholds Number a 5 Setting hysteresis relevant for temperature fluctuations prevents excessive activations of alarm flags The group contains parameters defining minimum log in time in GPRS network after transmitting data frame or SMS message 7 2 7 1 Active after SMS transmission min Performed function Data type Range Default value Comments Defines GSM activity time after transmitting SMS in minutes Number 0 30 0 Value other than O grants extra time for remote access to the module for e g configuration data read out etc Increasing activity time shortens battery life time 7 2 7 2 Active after GPRS frame transmission min Performed function Data type Range Default value Comments 7 2 8 Rules Defines GSM activity time after transmitting GPRS frame in minutes Number 0 30 0 Value other than O grants extra time for remote a
40. e Allows protecting the configuration with a password The 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 Alphanumeric Letters digits and special characters max 31 characters N A Since the only way of unlocking the module without the password is returning to factory settings it is strongly recommended to store passwords at safe location Selects the time zone for local time Time zone offset is added to UTC time to obtain local time Selection list GMT 12 00 GMT 13 00 GMT no offset Module s RTC clock works in UTC time To obtain local time user shall specify correct time zone for place in which module will be installed Also if DST Daylight Saving Time correction is needed user shall configure appropriate parameters All timers in module work in local time including DST The parameter selects whether module will perform DST correction of local time Selection list Active The Module will perform DST correction according to configuration settings Default value Comments Performed function Data type Range Default value Comments 7 2 2 6 DST offset Performed function Data type Range Default value Comments 7 2 2 7 Start year Performed function Data type Range Default value
41. e enters battery replacement mode Entering this state is indicated by LED1 diode being continuously lit When LED1 goes out module entered deep sleep mode and will remain in this mode for 5 minutes no matter if there are any wakeup events As module in sleep mode consumes very little current and module power supply contains large capacitors this allows user to disconnect and replace the battery without risk of RTC reset etc 4 9 Enclosure Enclosure of MT 051 module is manufactured from high quality plastic securing highest environmental protection IP67 for the electronics even in harsh environment Housing is manufactured by FIBOX All enclosure data including the parameters of used material are available at manufacturer s web page www fibox com Three version are available e S size where dimensions height x width x depth are 75 x 125 x 75 mm e M size where dimensions height x width x depth are 125 x 125 x 75 mm e L size where dimensions height x width x depth are 175 x 125 x 75 mm Bear in mind that protection grade is highly dependant on proper lid assembly and sealing cable glands Improperly closed leaking cabinet leaves the electronics and the battery unprotected 15 5 Connection diagrams This chapter presents recommended wiring configurations ensuring proper functioning of all MT 051 module resources Connections are presented for e Binary inputs 11 15 e Power supply and installation methods of
42. e 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 051 module is performed by MTManager MTM program delivered free of charge to all users 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 051 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 20 For the ease of use MT 051 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 GSM GPRS contains parameters related to SIM cards necessary for log in to GSM GPRS network and defining vital parameters for reliable transmission SMS contains parameters for SMS messages handling Authorized numbers contains lists of phone numbers and IP addresses of other rou terminals
43. echnical 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 which is necessary for proper configuration of MTDataProvider and data collecting equipment 3 GSM requirements For proper operation of the module a SIM cards provided by a GSM operator with GPRS and or SMS option enabled is essential Module supports mini SIM and micro SIM size One can use the built in MIM circuit as an alternative It is advised to use SIM cards that can operate in 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 In APN with dynamic IP assignment communication is possible only form device to server with static IP address 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 design 4 1 Module topography Power SIM card holders Reed switch USB GSM connector antenna connector Cable gland LEDs Binary inputs 4 2 Resources
44. ed by date predefined symbolic name and by d and ud macro prefixes Text 0 31 signs YYYY DD MM 10 the text user can put any sign combination but predefined with special meaning listed below YYYY if placed in this format text automatically changed for year in four digit notation e g 2011 YY if placed in this format text automatically changed for year in four digit notation e g 2011 DD if placed in this format text automatically changed for day of month e g 31 Example Parameter is set to Date of measurement YYYY MM DD Macro result is providing today is 31st of January 2011 Date of measurement 2011 01 31 Defines date format used by time predefined symbolic name and by t and ut macro prefixes 35 Data type Range Default value Comments Text 0 31 signs HH MN SS 10 the text user can put any sign combination but predefined with special meaning listed below HH if placed in this format text automatically changed for current hour in 24h format e g 01 MN if placed in this format text automatically changed for current minutes e g 01 SS if placed in this format text automatically changed for current seconds e g 59 Example Parameter is set to Time of measurement HH MN SS Macro result is providing the time is 01 01 59 Time of measurement 01 01 59 7 2 4 8 3 General format 1 Function Data type Range Default value Comments Defines date format used by RTC predef
45. ents for SMS rule Selection list None No event selected Counting inputs Event associated with flow control for selected counting input Temperature Event associated with temperature sensor Timers Event associated with module timers Flags Event associated with flag bits Binary Inputs Event associated with binary inputs state None 7 2 8 1 2 2 Triggering flag Performed function Data type Range Default value Comments Selects particular source of triggering event in event group for SMS rule Available options depend on Triggering source parameter setting Selection list If Triggering source is set to Counting input 1 Counting input 2 Counting input 3 Counting input 4 or Counting input 5 Any alarm flag will be activated if any alarm occurred on selected counting input HiHi current measurement above HiHi alarm level Hi current flow measurement above Hi alarm level Lo current flow measurement below Lo alarm level LoLo current flow measurement above LoLo alarm level If Triggering source is set to Temperature Hi current temperature measurement above Hi alarm level Lo current temperature measurement below Lo alarm level If Triggering source is set to Timers GSM transmission timer GSM transmission timer generated pulse Measurement timer Measurement transmission timer generated pulse If Triggering source is set to Flags REED REED flag set after triggering reed switch with magne
46. ers space One can access individual bits IB 0 16 n or groups of bits Read only Bit mapping is as follows bits 0 15 correspond to input register O bits 16 31 to input register 1 and so on Register symbols can be preceded by prefixes which can define amount of data being processed and data format Available prefixes Register space HR IR 16 bit registers Prefix Description Binary format 16 characters bits default bits from most to least significant B 1 4 Prefix can contain register count 1 4 being processed register symbol defines lowest register in resulting string rightmost character corresponds to bit with lowest number Decimal format 1 5 characters unsigned Prefix can contain register count 1 4 being processed register D 1 4 symbol defines lowest register number returned is decimal notation of n 16 bit value where most significant bit is placed in register with lowest address big endian Hexadecimal format 4 characters H 1 4 Prefix can contain register count 1 4 being processed returned string contains n 4 character groups leftmost group corresponds to register with lowest address big endian Local time fetched from three consecutive registers Rn Rn 1 Rn 2 where n corresponds to register symbol used Time format according to Time format string in configuration UTC time fetched from three consecutive registers Rn Rn 1 Rn 2 UT where n corresponds to register symb
47. es No If this parameter is set to Yes after establishing GPRS session module will send spooler request frame to specified IP address Destination IP address is card specific however if SIM2 is in use and IP address for SIM2 is set to 0 0 0 0 module will use IP address for SIM1 29 7 2 3 8 Spooler IP 7 2 3 9 SIM1 SIM2 Performed function Data type Range Default value Comments Defines IP address of the computer running MTSpooler the program performing delayed remote configuration of battery powered modules Selection list Authorized IP list First IP address on list SIM1 and SIM2 groups contain card specific parameters for both SIM cards used If Dual SIM parameter is set to No only SIM1 group is available 7 2 3 9 1 SIM card PIN number 7 2 3 9 2 APN name 30 Performed function Data type Range Default value Comments Allows passing of the PIN code supplied along with the SIM card inserted into the module For SIM cards not protected by the code the value is insignificant Number Max 8 digits N A Inserting of wrong value may cause blocking of the module In case of module signaling locked SIM card apply unblocking procedure described in Problem solving chapter 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
48. from holding register 2 If received SMS contains any other characters than correctly formatted commands these characters will be copied unaltered to message being sent back This allows user to freely compose text of return message and include register values together with some informational text For example if user sends containing Temperature was IR27 C then module will answer with gt Temperature was 15 C where 15 is a value read from input register 27 It should be noted that answer from module begins with gt sign it means that this SMS was generated by module If module receives SMS beginning with gt such message will be ignored not parsed This prevents endless looping of messages in case they are being exchanged between modules Writing to register is archived by expanding basic command with sign and value that should be written HR2 2 User should be aware that writing is allowed only to holding register space When module receives SMS with write command it executes the command and sends back value written For example sending to module SMS with text HR4 1234 causes module to write value 1234 to holding register 4 and send back SMS with text gt 1234 Both read and write commands can be expanded by adding a prefix which defines data format notation Prefix should be placed between mark command start and register symbol and should contain one or more characters ended with a dot For
49. g USB connection module does not enter power save mode For USB connection a standard A Mini B type cable is used Detailed information on using the USB port for module configuration can be found in the MTManager manual 4 4 SIM cards MT 051 module is equipped with two holders for SIM cards mini SIM and micro SIM size The holders are placed horizontally on the both side of PCB inside the enclosure SIM card holders 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 For proper operation at least one SIM card should be inserted into holder If only one SIM card is used it should be inserted in holder marked SIM1 MT 051 module offers possibility to use two SIM cards This increases reliability of GSM communication channel if one of GSM networks is unreachable or by other means unusable e g low GSM signal unable to establish GPRS session module will try to establish GPRS connection using second SIM GSM network When both card holders are populated with SIM cards and module s configuration is set up for use of two Sl Ms module always tries to use SIM1 card first If GSM GPRS login is unsuccessful module switches over to SIM2 card Card and network specific parameters such as PIN code APN name IP addresses of destination servers etc are set on per card basis 10 4 5 Power supply MT 051 module may be powered exclusively
50. gnored 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 40 Idx Name 1 IP 1 2 IP 2 7 2 6 Resources Address for SIM1 Address for SIM2 Configuration Receiving 0 0 0 0 0 0 0 0 Y Y anan 0 0 0 0 Y Y Del Ins 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 states pulse counters and temperature as well as internal timers flags 7 2 6 1 Digital inputs Digital inputs can be set in one of following operating modes in two modes e Inactive binary input is deactivated Binary input the input operates as positive logic input logical false equals GND potential e Counting input configuration dedicated to counting pulses of external counters and calculating the flow Performed function Data type Range Default value Comments 7 2 6 1 2 Name Performed function Data type Range Default value Comments 7 2 6 1 1 Bi
51. ids 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 liquid or gas fuels stores inflammable materials stores nor places contaminated with metal or wheat dust 61 11 Appendices 11 1 SMS commands syntax 62 Description of SMS command Internal application of a module is able to receive process and send short text messages SMS There is a set of command which can be put in SMS and e mail message allowing the user to read from and write SMS o
52. ined symbolic name and by 71 macro prefix Text 0 31 signs YYYY MM DD HH MN SS In the text user can use symbols available for parameters Date format i Time format 7 2 4 8 4 General format 2 Function Data type Range Default value Comments Defines date format used by 72 macro prefix Text 0 31 signs YYYY MM DD HH MN SS In the text user can use symbols available for parameters Date format i Time format 7 2 4 8 5 Status message Function 36 Defines the text of status message sent to recipient if SMS rule triggered has Send status message parameter set to Yes Data type Text Range max 160 characters Default value name I O b5 ib96 Bat f3 ir7 V Temp S ir27 C SIG ir5 time date Comments Status message text symbolic names may be used following syntax rules defined in Appendices in the SMS commands syntax chapter 7 2 4 9 Symbolic names Symbolic names group contains names assigned by the user referring to the internal and input registers There can be defined up to 16 symbolic names In order to use a Symbolic name in SMS put it name preceded by sign in SMS text send from mobile phone or defined in Rules gt SMS sending or as a component of user defined macros Using symbolic names makes composing SMS text much more convenient and user friendly 7 2 4 9 1 Number of symbolic names Function declares number of user defined symbolic names Data type number
53. is a device s unique identifier 7 2 1 5 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 6 Module 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 7 Configuration file version 22 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 8 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 9 Last configuration date Performed function Data type Range Default value Comments Displays the date and time of last successful configuration change Text N A read only parameter N A The
54. ist The module will communicate only with units with the IP address present on the list 39 7 2 5 3 Phone Idx Name Number Query Configuration Index number Friendly name facilitating identification of the module while defining Rules Max length 16 characters Phone number assigned to list index Max 14 characters The module receives and analyzes SMS messages depending on selected setting When Query is not allowed all SMS messages will be deleted Default value Y 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 Idx Name 1 NUM 1 2 NUM 2 7 2 5 4 IP Idx Name Address for SIM1 Address for SIM2 Receiving Configuration Number Configuration Query 48 Y x 48 Y x Index number Friendiy name facilitating identification of the module s IP while defining Rules Max length 16 characters IP address assigned to list index effective when SIM1 card is in use IP address assigned to list index effective when SIM2 card is in use If this address is not set module will use address for SIM1 Parameter is visible only if Dual SIM parameter is set to Yes Value of this parameter determines whether data arriving from selected IP will be accepted or i
55. je uajsew TVIN El cl uo WJeje MOL Aue WJEJE uajsew TY N ZI 1140 uueje Mol Aue WJEJE Jaysew TVW TI G 40 paunseaw I Aq p sso A pueqpesp aga GI yl uo poinseaw MOL Aq p sso A pueqpesp 480 ri gI UO paunseswu Aq posso 353 pueqpesp 440 Z uo painseaw NOV Aq passosd A pueqpesp aga ZI TI uo parnseau MOL Aq passosd A pueqpesp aga LI S6ejy W IEJE 193seu pue pueqpe q 1427 Aepo juas sequin ul x 1427 sour 36pajmouj ie jou jo Jequnu 1520 ul x x SYdD EIA Juas sajAq Jo s qulnu ejo 1 5442 0407 zEJU 9E00x0 ys GE00x0 ES 2 zs 6409 EIA sajAq Jo Jaqunu 2101 sudo 107 ZEU 00x0 zs uonezol WSD 00000 JWI im pr iwo ab mu A po2 UOI EJO po i y INS anbiun JOMION qQ0W 9144 3200 0 LV 31002 Anuno NSI nblun Phom s d Anunog SIIdOW ar i O azooxo St 55 di 5449 USUN 41 5440 1HO7 ZEU azooxo sy 42008 Wouj spuodas zewo vVZOOXO zb XINN ul dwezsown juswsunseaw jxeq 1994 YAW HOT ZEW 6Z00X0 Tb 42008 Wouj SpUO S JEWUOJ X INN U 1407 i 8000 0 duwejsaul UOISSILUSUEJ 155 pajnpayos 3x N LSWL WSS HOT Zeu 1200 0 66 spuodas ul 4 3uno auwn spou d fs JNUL dA 1401 Zeu
56. n AO as Le eb sa 7 2 4 10 3 Macro sieontent ayi ego as lo ua at A d 7 2 5 Authorized NUMDOENS swis uuu alina aaa gua aba l y s s lis ARA m 7 2 5 14 NUmbef of phone numbers ices aa a AE EO AOC A WEP GWO S Nuariber of IP R mb ersu WA ai A POJAWA id RS 7 2 5 3 O AN LAA MP A AA AA A AA Sq ia aa ulaqa aka 2 2 6 R SOUTCeS nasa a a A tds 7 2 6 1 Digital inputs 7 2 6 1 1 Binary inputs sampling frequency AA NAME act ada A A A SN 7 2 6 1 3 Input type 7 2 6 1 4 Filtering constant 7 2 6 1 5 Minimum pulse duration time IS i oo EAN AAA NAWOZY WEW A NE S ny ky el ei kita 7 2 0 1 7 Flevr unit WRO O Ad eee SA Baki 752267138 FIOWE CAII wwa O see R 7 2 6 1 9 Pulse weight Multiplier eng units 7 2 6 1 10 Pulse weight Divisor eng 72 61 11 Alarm HiHizengineeti gUNItS id 7 2 06 1 12 Alarm Hi ehgineeri g Units eda A O AL ARN daa 7 2 6 1 13 Alarm Lo engineering Units e os 7 2 6 1 14 Alarm LoLo engineering units 7 2 6 1 15 Alarm hysteresis engineering units 7 2 6 1 16 Deadband engineering US ania a A ning ee das Lis 4 2 6 2 4 LOW battery alanim W ests l aaa n sn ta aid ada sins aqha wait nid 122 6 2 2 Voltagehiysteresis a d t AE YO n AO O AWA 7 2 6 2 3 Battery alarm notification interval iia
57. n order to log in to other networks the SIM card present in the module must have roaming option enabled 7 2 4 SMS SMS group contains parameters related to sending and receiving of text messages by MT 051 module 7 2 4 1 Daily SMS limit Function 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 Data type Number Range 0 65 535 Default value 10 Comments Setting this value to O means no limit 7 2 4 2 Roaming for SMS Function Decides whether the module may send SMS when roaming in foreign network Data type Selection list Range No When roaming in foreign GSM network no SMS are sent Answer The module can only respond to queries from authorized numbers All All SMS messages are sent regardless of the GSM roaming Default value Answer Comments In order to be able to sent SMS in roaming the SIM card in the module has to have roaming option active 33 7 2 4 3 Number of SMS sending retries Function Data type Range Default value Comments Defines max number of retries of failed SMS transmission Number 0 255 20 After reaching the defined value the SMS is deleted from sending queue 7 2 4 4 Answer for blank SMS Function Data type Range Default value Comments Defines the text of reply for empty SMS to the sender Text max 160 characters MO In re
58. nary inputs sampling frequency Defines maximum frequency of counted pulses Selection list 8Hz 16Hz 32Hz 64Hz 128Hz 256Hz 8Hz For energy savings select lowest frequency required by application Defines input s user friendly name Text Letters and numerals max 31 characters Respective 77 12 13 14 15 Assigning friendly names facilitates discrimination of inputs destination and required settings 41 7 2 6 1 3 Input type Performed Defines digital input s operating mode function Data type Selection list Range Inactive Input switched off Binary input Operates as binary input Counting input Operates as counting input Default value Inactive Comments According to selected mode MTManager displays additional configuration parameters for each input 7 2 6 1 4 Filtering constant Performed Defines in seconds minimum duration of electrical state on function the input to be considered stable thereby indirectly defining maximum time duration of electrical noise Data type Selection list Range 2ms 12 65 Default value smallest available Comments Increasing the value increases noise immunity but delays change detection reaction Value list available depends on Maximum pulse frequency set the greater the frequency and in effect internal sampling frequency the smaller filtering constant can be This parameter is available in binary input mode only 7 2 6 1 5 Minimum pulse d
59. nged by their registers addresses 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 GSM_STATE register from input registers address space address 4 on position 13 is the GPRS_OK bit indicating proper GPRS connection Using that formula you can specify the address of GPRS_OK bit in binary inputs address space as follows 4 16 13 77 o andui Guquno gt se pounbiyuoo H01 zou 6000X0 6 JI AJUO T1 101 Jaquno gt Jaquunu asjnd ezo L LI AND 8000 0 HNH AW abeyon Alaneg iva A abejon Alaneg Lo00x0 L 33635 YOUMS p l 338 andui Aleuiq se paunBijuod ji JUO SI Jo 83635 qi andui Aleuiq se painBijuod ji JUO y JO 3383S bi andui Aleuiq se painBijuod ji JUO I JO 84635 El andui 46414 se p inBiJuo2 Ji JUO ZI JO 83635 ZI andui Aleuiq se painBijuod ji JUO TI JO 83635 LI G sjndu Aieulg 9000x0 wap TS lt eubls TE JIS WSD un s d wap z s 64615 6 G Wgp S7 TTT SI 606 5 YET 015 159 HS Nou TE 0 ASP 00080 Wgp ETI gt jeubls 0 DIS WSD 5440 000 0 0 Ajinjssedans ajnpow T 4440 SHd9 0 boj o pellej T SYdD Jom su Sulsn s ajnpow T ONIWYOU JOMU WSD 0 A njisse20nS ajnpow T WSO AJOMI8U 1559 40 Bulydseas T HOYYIS WSO 91409 Nid T Nid Nid 6uoum
60. nly to internal registers placed in module s memory Characters with special meaning Character 065000000 starts a command ATTENTION putting two hash signs one after another will prevent module from processing command following it However after sending one of hash signs will be deleted this allows to control resources of one module from another stars mero 2 used as first character in SMS text inhibits parsing of SMS used as first character in SMS text inhibits answering to this SMS After reception of SMS message internal application tries to parse SMS text and execute command enclosed in it Parsing process generates new message text which is send back to user if module is allowed to either by configuration or by presence absence of sign Commands are formatted as follows prefix symbol value where prefix defines data representation and register count symbol defines register address and register space being accessed value defines data to be written to register s Prefix is optional when not present data is interpreted according to preset defaults Basic read command HR2 When module receives and parses the SMS message containing this command command string will be replaced with value of register 2 read from holding registers space noted in decimal format and this value will be put in SMS sent back to user Answer to this command sent back will be 10 where 10 is value read
61. of rules until writing the configuration to the module 53 7 2 8 2 2 Data sending rule 1 32 Each Data sending rule on the list is defined by mandatory parameters like recipient s address and triggering event The maximum number of rules is 32 7 2 8 2 2 1 Triggering source 7 2 54 Performed function Data type Range Default value Comments 8 2 2 2 Triggering flag Performed function Data type Range Selects source of triggering events for data sending rule Selection list None No event selected Counting inputs Event associated with flow control for selected counting input Temperature Event associated with temperature sensor Timers Event associated with module timers Flags Event associated with flag bits Binary Inputs Event associated with binary inputs state None Selects particular source of triggering event in event group for data sending rule Available options depend on Triggering source parameter setting Selection list If Triggering source is set to Counting inputs Any alarm flag will be activated if any alarm occurred on selected counting input HiHi current measurement above HiHi alarm level Hi current flow measurement above Hi alarm level Lo current flow measurement below Lo alarm level LoLo current flow measurement above LoLo alarm level If Triggering source is set to Temperature Hi current temperature measurement above Hi alarm level Def
62. ol used Time format according to Time format string in configuration Local date fetched from three consecutive registers Rn Rn 1 Rn 2 where n corresponds to register symbol used Date format according to Date format string in configuration 65 66 UTC date fetched from three consecutive registers Rn Rn 1 Rn 2 UD where n corresponds to register symbol used Date format according to Date format string in configuration UTC timestamp fetched from three consecutive registers T 1 2 Rn Rn 1 Rn 2 where n corresponds to register symbol used Timestamp format according to General format 1 or General format 2 strings in configuration S Decimal format 1 5 characters with sign when needed signed Access to single register treated as 16 bit signed value F 1 3 Converts decimal value to floating point number Number next to prefix defines number of digits after dot Bit access to register spaces HB IB Prefix Description B 1 64 Binary format Amount of bits being displayed provided in prefix Bits are presented in order from least to most significant opposite to binary representation of whole register D 1 64 Decimal format Value presented is calculated from amount of bits provided in prefix with bit with lowest address being least significant little endian H 1 64 Hexadecimal format Value presented is calculated from amount of bits provided in prefix with bit with lowes
63. on for 15 s or more impossible to log into GSM or no GSM reception LED 3 1 long flash missing or defective SIM card 2 long flashes wrong PIN number or blocked SIM card 3 long flashes log in to GPRS error 1 short flash device is awake 2 short flashes device is awake and modem is using SIM1 3 short flashes device is awake and modem is using SIM2 many flashes firmware is being updated 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 signaled by LED3 In order to unblock the SIM card do the following power the module off 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 proper operation of module 8 3 Battery replacement In order to replace the battery in MT 051 do following disassemble the enclosure lid put magnet near reed switch input for 20 to 50s when LED1 is on for more than 10 s remove the magnet wait till all LEDs go off remove the battery pack and replace it with the new one assemble back and tighten the lid The battery replacement mode extends the
64. ons of module s correct operation Without it the data transmission and access to SMS services are impossible We recommend that inserting of SIM cards is done with power disconnected which means that both battery and USB cable are not connected We recommend inserting the SIM card after writing to module configuration including correct PIN code for that SIM card Bear in mind that after two attempts of entering wrong PIN code the module will refuse to use SIM card in order to avoid blocking it Such a card with last PIN entry attempt will be treated as blocked absent however it will be possible for the user to unblock it by placing the card in regular GSM phone and entering correct PIN number thus resetting wrong PIN counter The SIM card s should be inserted into SIM holders placed on circuit board SIM card contacts should face bottom of module PCB and card should be inserted with cut corner outwards The card should be pushed gently till slight resistance is felt 17 Mini SIM Micro SIM Correctly installed SIM cards secures connection between it s contact fields and the holder contacts 5 4 Power supply MT 051 module is powered by replaceable internal battery pack with 4 5 VDC nominal voltage Total capacity of new alkaline battery depends on size and type of battery pack Three version are available S size 16Ah 3 alkaline batteries M size 32Ah 6 alkaline batteries L size 48Ah 9 alkaline batteries Depen
65. onth HH hour MN minute 01 01 00 00 31 12 23 59 Variable according to law regulation for Poland Entered value must strictly adhere to format specified Entering wrong value e g without space character between date and time part using different separators no leading zeroes will effect in DST being inactive Value shall be expressed in local time including DST If time point will be used as end of DST correction i e correction performed inside specified range value should be set in UTC time zone DST time Likewise if time point will be used as start of DST correction i e correction performed outside specified range value should be set in UTC time zone time GSM GPRS Group contains parameters related to log in and data transmission functions in GSM GPRS system They can be divided into mandatory e g SIM card PIN number APN name optional e g Spooler IP and optimizing transmission e g Transmission timeout Parameters contained in this group are 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 e g wrong PIN number for SIM card may render the module disfunctional 7 2 3 1 GSM band Performed function Data type Range Default value Comments Selects
66. operating without power supply time Module automatically goes back to normal operation after 3 minutes since entering battery replacement mode We recommend using original battery packs available at manufacturers stores 57 NOTICE Due to high environmental protection class IP67 it is imperative to close the enclosure lid accurately Precise alignment and tightening all screws is crucial for obtaining the required protection 9 Technical parameters 9 1 General Dimensions height x width x depth depends on enclosure 75 x 125 x 75 mm S size 3 alkaline batteries 125 x 125x 75 mm M size 6 alkaline batteries 175 x 125x 75 mm L size 9 alkaline batteries 9 2 Modem GSM GPRS Modem type u blox LEON G100 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 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 58 9 3 Binary pulse inputs I1 I5 Contacts polarization 2 8 V Counting frequency fill 50 250 Hz max
67. pas do kasab ke kod kapon on 1 2 8 2 241 rIggering SOUrce i ca fakes oi ke dev e DYE WA ave ke A AA A ARIBRENING flag sez woni naa ne ik O MO W dened led delete W FOT W W KA ede 7 2 0 2 2 3 MANO OU ci n 7 2 8 2 2 4 TAE Melo ii eiii 4 2 87252 5 REGipiENT NUMBER a EE A W AE Dua AEO an e s 8 MAINTENANCE AND PROBLEM SOLVING 56 e T EEDSIGNALING I a OO O OOO KO O OI A AE 56 8 2 UNBLOGKING THE SIM GARD x ES 57 8 35BATTERYREPLACEMENT caras RA Qa EA NEO ORO ZE 57 9 TECHNICAL PARAMETERS sod daye nen seten er ooo S B s s s 58 9 L GENERAL sd u Rh IE 9 2 MODEM GSM GPRS 9 3 BINARY PULSEINPUTS Ll roko OKO A A AGA e e ea AA AE ALA A 59 9 JEOGGERRG 2 ao TA EO siku u suaiun LDL O s 59 9 51 EMPERATURE SENSOR 525430 50hi s a dra 59 9 6 POWER SUPPLY W A ORA POPE 59 9 7 DRAWINGS AND DIMENSIQNS Lus a D Gad 60 10 SAFETY INFORMATIONS ieccccecesecciccccecssccstececccuciceccdessecdcssudessedscececcecsdes sccdececcccsedessdeessssceeescedesdenceccaseessee 61 WORKING ENVIRONMENT S ooo ap pak da AA R R s 61 10 2 ELECTRONIC EQUIPMENT iii Riki end A 61 10 2 1 Heart POCOMOKe Sii A NNW b n AAR n s n 61 10 2 2vHearing dIdS A A A A OB ZO AS AAA sb nn 61 10 2 3 Other medical equipmehnt
68. play message text symbolic names may be used following syntax rules defined in Appendices in the SMS commands syntax chapter 7 2 4 5 SMS limit exceed information Function Data type Range Default value Comments Decides whether the module may send alert that SMS limit was exceeded Selection list On module send SMS limit alert to defined phone number of info recipient Off disabled sending SMS limit alert Off This information is sent beyond standard messages queue and only once a day This message does not increment sent messages counter 7 2 4 6 Phone number of info recipient 34 Function Data type Range Default value Comments Selects the SMS limit alert recipient Selection list Authorized numbers list NUM 1 The recipient must be previously defined in Authorized numbers gt Phone 7 2 4 7 SMS limit exceed information text Function Data type Range Default value Comments 7 2 4 8 Formats Contains the text of the SMS message sent upon reaching Daily SMS limit Text max 160 characters empty This information is sent beyond standard messages queue and only once a day This message does not increment sent messages counter Group Formats contains parameters allowing user to define formats of date and time presented in SMS messages 7 2 4 8 1 Date format Function Data type Range Default value Comments 7 2 4 8 2 Time format Function Defines date format us
69. ronous timers depending on configuration settings Their function is counting constant user defined time intervals in range of 5 min to 7 days The purpose of timers is as follows e GSM Transmission timer when triggered turns on GSM modem and initiates GSM network login and GPRS session activation procedure Establishing GPRS session allows module to send Logger contents to specified Logger server e Measurement timer triggers flow calculation for binary inputs 4 2 5 Logger MT 051 module has a logger that may hold up to 28000 data records This equals about 90 days of measurements taken every 5 minutes The logger logs data synchronously meaning that the record writing is triggered by the measurement timer The records are the copy of first 35 input registers 10 134 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 performed every time when module establishes GPRS session Confirmation of reception marks records as sent In case of overflowing the oldest records are overwritten 4 3 USB MT 051 provides USB socket used for local configuration by MTManager program USB connector When module is connected via USB to a computer it is powered via USB port Thanks to that the module does not consume limited battery power during configuration and tests Durin
70. ry input triggers the rule Bi 1 gt 0 Bi 0 gt 1 Both edges on binary input trigger the rule Bi 0 gt 1 This parameter is available only when Triggering source set to Binary inputs 8 2 2 5 Recipient number Assigns a recipient of event frame from defined in Authorized numbers gt IP list Selection list Name from IP list first address on IP list To send the event frame the Authorized numbers gt lP must have at least one IP address defined 8 Maintenance and problem solving 8 1 LED signaling 56 MT 051 is equipped with three LED indicators reflecting the module state LED1 indicates module Measurement timer activity and GPRS transmission LED2 indicates GSM GPRS connection and GSM signal strength LED3 indicates module s state active asleep and SIM card used Each LED sends message consisting of short 100 ms and long 500 ms flashes LED 1 e 1 short flash every 30 seconds sleep mode e 1 long flash Measurement timer activity e many flashes GPRS transmission communication with MT Data Provider MTSpooler and MTManager e on for 3 seconds device waked up using reed switch input LED 2 on for gt 15 seconds device is entering battery replacement mode 1 8 short flashes module logged to GSM Number of flashes indicate signal strength more is better e 1 long and 1 8 short flashes module logged to GPRS Number of short flashes indicate signal strength more is better
71. sed to 24 hours for Measurement timer 7 2 6 3 1 GSM transmission timer Measurement timer 7 2 6 3 1 1 Start DD MM Performed function Data type Range Default value Comments 7 2 6 3 1 2 Start HH MM Performed function Data type Range Defines the synchronization point date with RTC Date 01 01 31 12 01 01 Timer generates a pulse when integer multiple of time intervals elapses from point in time specified by Start date and Start time parameters Defines the timer synchronization point time with RTC Time 00 00 23 59 47 Default value Comments 7 2 6 3 1 3 Period 7 2 6 4 Temperature Performed function Data type Range Default value Comments 00 00 Timer generates a pulse when integer multiple of time intervals elapses from point in time specified by Start date and Start time parameters Defines the time interval particular timer should measure Selection list For GSM transmission timer 5 m n 7 Days For Measurement timer 1 min 24 hours For GSM transmission timer 6 hour For Measurement timer 1 hour MT 051 module is equipped with an integrated temperature sensor 7 2 6 4 1 High temp alarm C Performed function Data type Range Default value Comments Defines the high temperature threshold value When exceeded the module rises a TEMP_Hi flag Number 25 80 50 Resetting of the TEMP Hi flag occurs when the temperature
72. sen The resetting level of the flag depends on Alarm hysteresis setting This parameter is available only in counting input mode 7 2 6 1 15 Alarm hysteresis engineering units Performed function Data type Range Default value Comments Defines the hysteresis value for flovv alarm threshold The value is set in engineering units Number 0 432767 100 Setting hysteresis relevant for signal fluctuations prevents excessive activations of alarm flags This parameter is available only in counting input mode 45 7 2 6 1 16 Deadband engineering units Performed function Data type Range Default value Comments 7 2 6 2 Supply 7 2 6 2 1 Low battery This parameter defines a minimal change of calculated flow value to react on Exceeding this value sets a flag respective to the pulse input where the change has been detected high Number 0 32767 100 When set to value O the flag will rise upon every detected flow change by minimum 1 engineering unit Deadband flags are dedicated to continuous monitoring of flow changes This parameter is available only in counting input mode Groups parameters defining power supply monitoring Performed function Data type Range Default value Comments alarm V Defines alarm threshold level of power supply voltage When the voltage drops to the threshold value a LO_BATT flag is raised The alarm is generated for the voltage lower than threshol
73. t LO_BAT LO_BAT flag set as a result of supply voltage drop below Low voltage alarm level DEV RST DEV RST flag set as a result of module reset either by vvatchdog or connecting povver N A This parameter is available only when Triggering source set to value other than Vone or Binary inputs 51 7 2 8 1 2 3 Triggering input Performed Selects triggering decimal input for SMS rule function Data type Selection list Range 11 Binary or counting input 11 12 Binary or counting input 12 13 Binary or counting input 13 14 Binary or counting input 14 I5 Binary or counting input 15 Default value 11 Comments This parameter is available only when Triggering source set to Counting inputs or Binary inputs 7 2 8 1 2 4 Triggering slope Performed Selects triggering pulse slope of selected digital input function Data type Selection list Range 10 1 Rising edge on binary input triggers the rule Bi 1 50 Falling edge on binary input triggers the rule Bi 1 gt 0 Bi 0 gt 1 Both edges on binary input trigger the rule Default value Bi0 gt 1 Comments This parameter is available only when Triggering source set to Binary inputs 7 2 8 1 2 5 Recipient number Performed Assigns a recipient of SMS from defined in Authorized function numbers gt Phone list Data type Selection list Range Names from Phone list Default value first number on phone list Comments To send the SMS message the
74. t address being least significant little endian Predefined symbolic names Name Description TIME Returns local time read from RTC registers the same as HLT IRO command DATE Returns local date read from RTC registers the same as LD IRO command RTC Returns UTC time and date read from RTC registers the same as T1 IRO command NAME Returns module name SERIAL Returns module serial number IPADDR Returns module current IP address Date and time formats User is allowed to specify date and time formats which will be used in SMS messages when timestamp processing commands are used Module s configuration contains four format strings Date format is used by date processing commands prefixes LD UD Time format is used by time processing commands prefixes LT UT General format 1 and 2 are used by timestamp processing commands prefixes T1 and T2 respectively Format strings can contain specific character combinations related to date time information which will then be replaced with corresponding values during parsing Apart from this format strings can contain additional characters they will be copied to resulting timestamp string unchanged Available specifiers are Specifier Replaced with YYYY Ppp day in month two digis 01 30 its 00 year four digits e g 2010 hour two digits 00 23 minute two digits 00 59 its 00 59 second two digits 00 59 For example if
75. uration time Performed Defines approximated minimal pulse duration time function Data type Selection list Range 2 ms 12 8 s Default value smallest available Comments This parameter filters high frequency signal noise Available values of the parameter depend on previously defined Maximum 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 counting input mode only 42 7 2 6 1 6 Slope Performed function Data type Range Default value Comments 7 2 6 1 7 Flow unit Performed function Data type Range Default value Comments 7 2 6 1 8 Flow scaling Performed function Data type Range Default value Comments Defines which slope of incrementing bit activates the counter incrementing function Selection list Start of pulse pulse start is considered a new pulse End of pulse pulse end is considered a new pulse Start of pulse This parameter is available only in counting input mode Defines the flow unit Text Letters and numerals max 15 characters empty The unit name has solely informative value with no influence on measured and transmitted information This parameter is available only in counting input mode Selects time reference units for flow scaling Selection list None No scaling is performed Minute Defines value in
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