Home

MT-151 LED

1. New module MT 151 MTManager sample program in MTprog mode 3 4 LEDs LED indicators placed on MT 151 LED front panel are a great help during module startup and troubleshooting GBRA data Binary inputs 11 116 USB status LED Detailed description of LED signaling can be found in LED signaling chapter 13 3 5 SIM card slots MT 151 LED module is equipped with two SIM card slots allowing to install two miniature not micro SIM cards For GPRS transmission it is advised to use static IP addressed SIM cards as it allows communication between devices and not only server and device Module support SIM cards using low voltage 3 3V technology 3 6 Antenna Connecting the antenna is necessary for reliable data transmission from MT 151 LED module SMA female type antenna socket is placed on module front panel S999959 hrl H Bel G 1 Bel 3 Me 2 13 4 5 6 17 w 8 19 ro 10012 103 104 105 100 3 Proper antenna placement is important during the module installation In case of low GSM signal level all SGN LEVEL LED indicators are turned off using the directional antenna with high gain may be necessary 3 7 Power supply 14 MT 151 module can be powered from DC power supply providing voltage in range from 10 8 to 36 VDC In addition module supports using 12V SLA Sealed Lead Acid battery as a backup power supply which provides power in case of loss of mains power supply Module
2. 44 Function Data type Range Defines HiHi alarm level for analog signal value in engineering units Number 32768 32767 Default value Comments 32767 If value of analog signal is higher than value of this parameter then the HiHi alarm flag is risen The resetting level of this flag depends on Alarm hysteresis engineering units setting 7 1 4 3 9 Hi alarm engineering units Function Data type Range Default value Comments Defines Hi alarm level for analog signal value in engineering units Number 32768 32767 32767 If value of analog signal is higher than value of this parameter then the Hi alarm flag is risen The resetting level of this flag depends on Alarm hysteresis engineering units setting 7 1 4 3 10 Lo alarm engineering units Function Data type Range Default value Comments 7 1 4 3 11 LoLo alarm Function S Data type 7 Range 7 Default value Comments Defines Lo alarm level for analog signal value in engineering units Number 32768 32767 32768 If value of analog signal is lower than value of this parameter then the Lo alarm flag is risen The resetting level of this flag depends on Alarm hysteresis engineering units setting engineering units Defines LoLo alarm level for analog signal value in engineering units Number 32768 32767 32768 If value of analog signal is lower than value of this parameter then the LoLo
3. 8 18 al Attention e Power cables length should be lt 10m e Signal cables length should be lt 30m e For longer cables it is advised to use external overvoltage protection 4 3 Analog inputs 4 20mA Analog input Ali connection with active sensor Hel M 12 12 13 13 14 14 14 12 13 4 15 l6 17 El BINARY INPUTS 1 19 110 141 112 143 144 115 116 BINARY INPUTS 2 ANALOG INPUTS 16 Analog input All connection with passive sensor 11 1 12 12 13 13 14 14 11 11 12 13 14 15 16 17 18 L 19 140 141 112 113 114 115 16 ANALOG INPUTS BINARY INPUTS 1 BINARY INPUTS 2 Attention e Power cables length should be lt 10m e Signal cables length should be lt 30m e For longer cables it is advised to use external overvoltage protection 4 4 Analog inputs 0 10V Analog input AV1 connection with active sensor Al 1 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC12 24 lp l o 0 raofteo at az as as as as a7 as a Jarl artfara amp 3 al 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC12 24 a G p 3 Rofl a2 as as as a a7 as a araJar1Jarz a 2 2 Attention e Power cables length should be lt 10m e Signal cables length should be lt 30m 17 e For longer cables it is advised to use external overvoltage protection 4 5 Communication ports Port 1 o
4. Defines the bit which state change increments counter value by 1 Number 0 2147483647 0 When counting up the counter is zeroed by next appearing pulse upon reaching declared value When counting down next pulse writes declared value into the counter upon reaching 0 Setting this parameter to O turns off counter Timers group contains configuration parameters of module timers 7 1 4 6 1 Synchronous timers CT1 CT16 Synchronous timers measure cyclically defined time intervals They are synchronized with module real time clock RTC Each time is counted CT flag corresponding to timer is set to high level for one program cycle 7 1 4 6 1 1 Start HH MM Function Data type Range Default value Comments 7 1 4 6 1 2 Period Function Data type 50 Defines the synchronization point of timer with RTC Time 00 00 23 59 00 00 At the time defined by this parameter the module will always set timer flag high Defines time period counted by timer Selection list Range Default value Comments 7 1 4 6 1 3 Days of week Function Data type Range Default value Comments 7 1 4 6 1 4 Days of month Function Data type Range Default value Comments 7 1 4 6 1 5 Months Function 5 Data type Range S None 1 min 2 min 3 min 5 min 10 min 15 min 30 min 1 hour 2 hours 3 hours 4 hours 6 hours 8 hours 12 hours 24 hours None Choosing None disables the
5. N A 43 7 1 4 3 4 Low reference internal units Function Data type Range Default value Comments Defines number of yA corresponding to number of engineering units defined by Low reference engineering units parameter Number 4000 20000 uA 4000 yA Used along with other reference parameters for rescaling input signal to engineering units 7 1 4 3 5 Low reference engineering units Function Data type Range Default value Comments Defines number of engineering units corresponding to number of UA defined by Low reference internal units parameter Number 32768 32767 4000 Used along with other reference parameters for rescaling input signal to engineering units 7 1 4 3 6 High reference internal units Function Data type Range Default value Comments Defines number of yA corresponding to number of engineering units defined by High reference engineering units parameter Number 4000 20000 uA 20000 uA Used along with other reference parameters for rescaling input signal to engineering units 7 1 4 3 7 High reference engineering units Function Data type Range Default value Comments Defines number of engineering units corresponding to number of pA defined by High reference internal units parameter Number 32768 32767 20000 Used along with other reference parameters for rescaling input signal to engineering units 7 1 4 3 8 HiHi alarm engineering units
6. 8 8 ETHERNET PORT1 ACTIVITY LNKG ACT TE R M7151 ogo ooo LED a a2 a MICRO SD R R ACCU POWER Al 1 2 PORT 1 Sees BINARY OUTPUTS INPUTS ACCU DC12 24 V1 V2 v D D 5 RxD rdla Q2 Q3 Q4 Q5 Q6 Q7 Q8 a9 Q10 Q11 012 Sl elfele o 2000999999989 e0999 157 Hi 83 10 Safety information 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 aids In rare cases the signal emitted by the telemetry module s antenna may disturb hearing aids functions Should that occur one has to study detailed operating instructions and recommendations for that particular product 10 2
7. Comments Defines the length of the Modbus routing table Number 0 16 0 N A 7 1 5 8 2 Number of Transparent routing table rules 64 Function Data type Range Default value Comments Defines the length of the Transparent routing table Number 0 4 0 N A 7 1 5 8 3 Modbus routing table Idx Index number Name Friendly name facilitating identification of routing rule purpose Max length is 31 characters Interface None Routing rule is disabled Port 1 Modbus RTU Slave device is connected to Port 1 Option available only when Port 1 operate in Modbus RTU Master mode Port 2 Modbus RTU Slave device is connected to Port 2 Option available only when Port 2 operate in Modbus RTU Master mode Ethernet Modbus TCP Server device is connected to Ethernet port Option available only when Ethernet is turned on GPRS Modbus TCP Server RTU Slave device is connected to MT telemetry module logged into GPRS Option available only when GPRS is turned on Porti ID 1D of Modbus RTU Slave device as seen from Port 1 1 255 Port2 ID 1D of Modbus RTU Slave device as seen from Port 2 1 255 Ethernet IP P of Modbus TCP Server device as seen from Ethernet 0 0 0 0 255 255 255 255 Ethernet ID ID of Modbus TCP Server device as seen from Ethernet 1 255 GPRS IP IP of MT telemetry module as seen from GPRS 0 0 0 0 255 255 255 255 GPRS ID ID of MT telemetry module or device connected to it as seen from GPRS 1 255 Entries
8. ccn cist oi ATi 58 7 1 5 5 7 3 1 4 MQOpped Space Size se neirinne id ceva sabia i EAS A EEKE EENE 58 7 1 5 5 7 3 1 5 Mapped space address Module sss sese 58 7 1 5 5 7 3 1 6 Mapped space refresh interval nsss nni EE a 59 A EOS 59 7 5 6712 Operating MOE tir AA AAA AAA AAA 59 DL ZAAPA A A ia 59 7 1 5 6 3 Stop Dit iii a a as 59 TASA MV NA A an ee Ae eee 60 74 5 6 5 Transparent A eared eileen E EA tees E AE E ee eas 60 71155 65 1 Maxodata packet sizes cil ilic 60 7 12536 5 2 Data frame delimita a eee e dansk ahs a ei eeeeeria te tiies 60 PALS ECN A AAA daa iria 61 PASTAS OEA a id ia 61 TAS 722 Padd eS Susunan AS 61 TAS SUN MK iii a ei en eels aie tig ec Ale lege ee nals Rodis lene elas 61 TADA Default TT 61 tL N Authorized IP addresses citas ibi 62 7 1 5 7 5 14 NUMber of IP addresses sai rerepair iaa apaan aa a aA aaa aa ai a raa aien 62 TAPS DIR EET TAE TO 62 71 5760 Modbus TGP Client its TT 62 7 1 5 7 6 1 Delay after error in communication with Server eee eee ee ee eee eee 62 7 1 5 7 6 2 Number of read write data blocks 7 1 5 7 6 3 Data block read write rinsian nnna iia A 291 A 1 AN 7 1 5 7 6 3 2 Address space in Server 7 1 5 7 6 3 3 Mapped space address Server isesi na e aa r aa a aena 63 7 1 5 7 6 3 4 Mapped PACO Zi as 7 1 5 7 6 3 5 Mapped space address Module 7 1 5 7 6 3 6 Mapped space refresh intervals msna e rer a E EA E ESNA EE 7 1 5 8 RoUting tables ii aa 7 1 5 8 1 Number
9. no parity bit and 1 stop bit Port is not optoisolated 3 2 8 MicroSD card reader MT 151 LED telemetry module is equipped with microSD card reader supporting up to 2GB microSD cards Cards should be formatted using FAT16 file system 3 2 9 Real time clock 3 MT 151 LED module is equipped with Real Time Clock RTC This clock is a source for time measurement for the module timers and time stamping measurements stored in the logger and sent via GPRS It is recommended to manually synchronize modules real time clock during the first configuration performed using the MTManager program 3 Internal resources 3 3 1 Logger 10 MT 151 LED telemetry module is equipped with Logger capable of storing up to 12000 records which allows to store measurements done every 10s for 30 hours or 40 days if measurement was saved every 5 minutes Records are saved asynchronously meaning that the record writing is triggered by an event defined by user in the Event table The event may be e g counting the time by the timer GPRS logon crossing one of defined alarm thresholds and other The logger records consists of up to 4 data blocks 28 16 bit registers each Each record in the logger has a time stamp of the module internal Real Time Clock RTC The data written in the logger is transmitted to IP address assigned during configuration Sending of the logger content is triggered by user defined events Confirmation of reception marks re
10. value 1056 l int32 LoHi REG CK16 CK16 asynchronous timer current 1072 value 1088 int16 LoHi RESTART Module restart counter C1 C8 program counters counting inputs active on rising edge C1 C8 program counters resetting inputs active on 1 i T1 T8 program timers enable bits active on 1 T1 T8 program timers resetting bits active on 1 ee ee eT e ris ras ria rua mia Pn P10 Po re er re Ps ra rs P2 Pris General purpose program aos Pcs et ee T TEE 101 CLK_C8 CLK_C7 CLK_C6 CLK_C5 CLK_C4 CLK_C3 CLK C2 RST C9 RST C7 RST C6 RST C5 RST C4 EN_T2 RST_C3 RST_C2 RST_T1 EN_T1 RST_C1 CLK C1 RST_T2 E Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 Address BE Name Description re oe is T TSTS TT TSTST TSTS aS STTS E G 5936 int16 LoHi REG256 General purpose 16 bit register 372 5952 bi i 372 5952 int32 LoHi DREG1 General purpose 32 bit register signed 628 10048 bi 628 10048 int32 LoHi DREG128 General purpose 32 bit register signed 10080 int16 LoHi PV_Cl C1 program counter threshold value 631 10096 int16 LoHi 10112 int16 LoHi PV_C3 C3 program counter threshold value 10128 int16 LoHi PV_C4 C4 program counter threshold value 10144 int16 LoHi PV_C5 C5 program counter threshold value 635 10160 int16 LoHi PV_C6 C6 prog
11. 10V alarm bits Hi alarm Measured value Gale a N higher than Hi alarm threshold HGG hS Analog inputs 0 10V alarm bits HiHi alarm Measured AL TENE SO value higher than HiHi alarm threshold All ABOVE Al4 ABOVE Analog inputs 4 20mA alarm bits out of measurement E range Measured value lower than 3 5mA AIL BELOW Analog inputs 4 20mA alarm bits out of measurement Al4_ BELOW range Measured value higher than 20 5mA AV1_ABOVE Analog inputs 0 10V alarm bits out of measurement AV2_ABOVE range Measured value lower than OV AV1_BELOW Analog inputs 0 10V alarm bits out of measurement AV2_BELOW range Measured value higher than 10V P1 P256 General purpose program flags P1 P256 More information about available bits can be found in Memory map 91 11 3 Memory map 92 All accessible from remote and by program resources of MT 151 module were collected in four address spaces Binary Inputs Input Register Binary Outputs and Holding Registers Spaces of Binary Inputs and Input Register 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 registers and register groups This difference results in a different way of addressing In the Input Reg
12. 15 characters Default value mV Comments N A 7 1 4 4 3 Low reference internal units Function Defines number of mV corresponding to number of engineering units defined by Low reference engineering units parameter Data type Number Range 0 10000 mV Default value O mvV Comments Used along with other reference parameters for rescaling input signal to engineering units 46 7 1 4 4 4 Low reference engineering units Function Data type Range Default value Comments Defines number of engineering units corresponding to number of mV defined by Low reference internal units parameter Number 32768 32767 0 Used along with other reference parameters for rescaling input signal to engineering units 7 1 4 4 5 High reference internal units Function Data type Range Default value Comments Defines number of mV corresponding to number of engineering units defined by High reference engineering units parameter Number 0 10000 mV 10000 mV Used along with other reference parameters for rescaling input signal to engineering units 7 1 4 4 6 High reference engineering units Function Data type Range Default value Comments 7 1 4 4 7 HiHi alarm Function Data type Range Default value Comments Defines number of engineering units corresponding to number of mV defined by High reference internal units parameter Number 32768 32767 10000 Used along with othe
13. 2 Number of SMS sending retries 7 1 3 7 3 SMS limit exceed HIST E LT 7 1 3 7 4 Recipient of SMS limit exceed Informations sees ee eee ee eee 37 1 1 3 55 Answer for blank SMS as ad 37 7 1 3 7 6 FOrMatS sese sees eee 7 1 3 7 6 1 Date format t E TUE E a 38 ES A E A E E E E RINT 38 7 1 3 7 7 1 Number of symbolic names sb a EN g 38 7 1 3 7 7 2 Symbolic name table iii ia 38 ANS A AA O OO AO 39 713575851 NUMberoOR Macros TT 39 7 1 3 7 8 2 Macro table we ve F138 AUthOrized aT s 7 1 3 8 1 Number of phone aT ST dees cess a engere ieee iaa 40 A1382 Number of IPaddresses iii ibn 40 7 1 3 8 3 Phone iz Ai ih TEV BiB AMP sissies TO TF WAS ROSOULGCOS ie E Seat seen atid dia E E E FS D R T Binary inputs IE osa 41 HAAG Ts Dei NQMC iaa E sais AA a nat 7 1 4 1 2 Input type ei oe AAA A A O treo T S aing sha T 71 42 Binary o tp ts QT Q12 ois cece ec A A wives seed A eae eee 42 DAA LA v lT 7 1 4 2 2 Input type e ae ae E A 7 1 4 3 Analog inputs 4 20mA ALL AlA ea a a Eaa ibas 43 A O a 43 7 1 4 3 2 NIME ps 7 1 4 3 3 Engineering units 7 1 4 3 4 Low reference internal Units iia E E E A 44 7 1 4 3 5 Low reference engineering UNit Sesen a a a a a eaaa R a RAT 44 7 1 4 3 6 High reference internal units 44 74 43 7 High reference TT Ta TRT n A A E cent 44 7 1 4 3 8 HiHalanm engin erinig Units ENN E EEE NS E E ENE EE 44 7 1 4 3 9 Hitalarm engineeringsunits ai Se ay eee Re E S
14. 50A Max 2 00A Idle 0 06A Input current for 24VDC Active 0 25A Max 1 00A External battery nominal voltage Maximum external battery charging 5 current OmA 81 NOTICE Due to high momentary current consumption the power supply must be capable of delivering gt 2A of current Inappropriate power supply may result in faulty operation or cause damage to the module 9 4 Binary inputs For binary inputs 11 116 Input voltage range Input voltage range resistance Input voltage for high state 1 Input voltage for low state 0 For binary outputs Q1 Q12 operating in binary input mode 9 5 Binary outputs Maximum output current 160mA Voltage drop for 100mA Current in low state 0 9 6 Analog inputs 4 20mA 9 7 Analog inputs 0 10V 82 Measuringrange 10 Maximum input voltage Dynamic impedance typically 197kQ A D converter resolution 12 bits Accuracy 25 C 9 8 Drawings and dimensions o 2 E a N GO WO 0D 0 O OOOO OOOOOOCAOOOOOOOOcCOAD OODD 65855868888888888888888888888 M M 12 12 13 13 14 v 1 12 13 4 15 6 17 18 3 19 140 114 112 113 114 15 16 3 ANALOG INPUTS BINARY INPUTS 1 BINARY INPUTS 2 Wo 144 112 43 114 3145 16 m P bow Boog in entia GSM GPRS ANTENNA
15. 7 1 4 6 1 3 Days of week 1 1 4 6 1 4 Days Of Month ill ct ant Teri das da ce eRe eas ay Ria eet O 51 A A RR NA 51 7 1 4 6 2 Asynchronous timers CK1 CK16 va L i ts sa 52 R E 1 Activating Tas eee E E see osaeneeees 52 7 1 4 6 2 2 Reset el dT 52 TL4 6 2 3 DIMOU TIME UM di Aia 53 7 1 4 6 2 4 Counting range in timer units 53 FO B a esl ANEP ii Suiagslchlageiadsacesalehgaeesadigaged 53 44 471 Number of constant parameters nccs vcitccee et e eee et 53 PAALT 2 Tesla dB pias 53 LL COMMUNICATION POKES sacs cada cece EA da eae nse hess Saadeh adi ca neo a ha do AO dada iba 7 1 5 1 Modbus ID Port 1 ing FAIS 2 Modbus ID Te T 7 1 5 3 Modbus ID Ethernet asenne anatara ia da AAA IA ASE AA 54 7 1 5 4 Modbus ID GPRS RADO POr oe aches ve N de AAA a TTT 55 E Ie e eT 55 DADAS ON O A Ree heath eee teat 55 7 1 5 5 4 Stop bits i ds s TELS SS NO E DO Transparent MO iaa 56 SS AER a TT 56 7 1 5 5 6 2 Data frame delimiter i ja ia a 56 751 5 5 7 Modbus RIU Master m de sisrate AA 57 7 1 5 5 7 1 Delay after error in communication With Slave see eee eee ee eee 57 7 1 5 5 7 2 Number of read write data DIOCKS cccccccsscecssesesssscccesscccsesssceessscusescesssesesssssucesesecusseeeuseseaess 57 7 1 55 7 3 Data blocks read write uc ia 57 7 1 5 5 7 3 1 Data block read write see 57 7 1 5 5 7 3 1 1 Modbus Slave ID T 57 TELS DIZQUE Space in Slave ii TT 58 7 155 7 3 1 3 Mapped space address Slaves s
16. 7 1 6 4 2 Data block table 70 Idx Index number Name Friendly name facilitating identification of data block purpose Max length is 16 characters Address space Defines address space of data block Input Registers Input registers address 3XXX also known as analog inputs address space read only Holding Registers Holding registers address 4XXX also known as internal registers and analog outputs address space read write Data block Defines address of register from which data block begins address 0 8191 Data block size Defines number of registers which are in data block 1 256 Entries on this 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 Address space Data block address Data block size Holding Registers 4 Del E ETES ppend 7 1 6 5 Rules Rules subgroup consists of list of communication rules allowing to send SMS messages or send selected Data blocks via GPRS when selected event occurs 7 1 6 5 1 Number of rules Function Defines number of Rules to define Data type Number Range 0 32 Default value 0 Comments N A 7 1 6 5 2 Rule 7 1 6 5 2 1 Name Function Friendly name facilitating identification of the rule Data type Text Range Letters and numerals max 31 characters Default value Respectively from RULE1 to RULE32 Comments N A 7 1 6 5 2 2
17. AAA ad 8 1 7 Ethernet status 8 1 8 Mod le Status A jii a aiia A AA aidi 8 2 ERROR SIGNALING SA A EL A TEER 822 FEStANGAIG RAAL EEE T A E T 8 3 UNLOCKING THE SIM CARD A AAA E a ie ee a EN a aoea aa Zas 9 TECHNICAL PARAMETERG ssssssssesssssscceceeeecssssssssssssssssceeseeeeseeeeeesecssssssceseessesesssssecouacssesessssssecesesseesooes 81 ONT GENERALS O AOS A beeen aaron 9 2 GSM GPRS MODEM 93s POWER A NN OA BINARY INPUTS sececccaascsncaceceteasvsssndet E RT NT 975 BINARY OUTPUTS ccs cccxccicishs aa cde nu caves eau a 9 6 ANALOG INPUTS 4 20MA 9 7 2ANALOG INPUT OL OV tine conan sats Canteens vances testoance REE ani tad atada 9 8 DRAWINGS AND DIMENSIONS oi AA SR VRT 83 10 SAFETY INFORMATION ccccccccecccccccccssssssssseseeseecessesssccccccecessssssesesssssssseeeeeeeccccccccssssssssceseseessooosssesenes 84 10 1 WORKING ENVIRONMENT ocurra ara 10 2ELECTRONIC EQUIPMENT S Z O le 10 21 HE ATE PACEIMAKELS sirun ecient ed ba tovebd dean e Costa deus a aa a dias aaa da ra adardi i aaa dais dedo 10 2 2 Hearing aids 10 2 3 Other medical equipment 10 24 REF Marked equipMeNtE meirein hd aiai deus died Uaduoueddddactisutedeedeseestaduuveddecdhdaduarteceds 103 EXPLOSIVEENVIRONMENT casz522 csseeavcsgnacce cused ao orando a ARA ISC casos antes RIOR a 11 APPENDICES ssssssssssssssssceeeeeeeecseeseeecssssssscssseeeeseeseeseccceeeeecessssssssesessssseeeeee
18. Friendly name facilitating identification of the receiver while defining Rules Max length is 16 characters SIM1 address SIM2 address Protocol Configuration Receiving IP address assigned to list index used when SIM card installed in SIM1 slot is used IP address assigned to list index used when SIM card installed in SIM2 slot is used Parameter is available only when two SIM cards are used UDP Communication is carried out using UDP protocol Value of this parameter determines whether remote configuration data arriving from selected IP will be ignored or accepted Default value Y allowed Value of this parameter determines whether data arriving from selected IP will be accepted or ignored Default value Y allowed Entries on IP 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 7 1 4 Resources SIM1 address SIM2 address Protocol Configuration Receiving Group Resources encompasses a list of hardware and software resources available to users 7 1 4 1 Binary inputs 11 116 All parameters listed in this group are set individually for each binary input Binary inputs operate in both positive and negative logic at the same time 7 1 4 1 1 Name Function Data type Range Default value Comments 7 1 4 1 2 Input type Function Data type Friendly name facilitating identification of the binary in
19. Triggering event Function Defines event which triggers transmission Data type Selection list Range None and events defined in Event table Default value None Comments N A 71 7 1 6 5 2 3 Transmission type Function Data type Range Default value Comments 7 1 6 5 2 4 Receiver Function Data type Range Default value Comments 7 1 6 5 2 5 SMS text Function Data type Range Default value Comments 7 1 6 5 2 6 Data block 72 Function Data type Range Default value Comments Defines transmission type Selection list None Rule is disabled SMS Rule triggers sending SMS message GPRS Rule triggers sending data using GPRS None SMS and GPRS options are visible only when those methods of communication are enabled Defines receiver of SMS or data package depends on Transmission typesetting Selection list None and numbers defined in GSM gt Authorized numbers gt Phone list for SMS transmission None and addresses defined in GSM gt Authorized numbers gt IP list for GPRS transmission None N A Allows to enter text which will be send as SMS Text Letters numerals and special characters max 160 characters N A It is possible to add to SMS text macros symbolic names and special mnemonics dynamically changed for values from module e g analog input value or binary input state Description of this mnemonics can be found in SMS commands syntax chapter in Appendices P
20. a server listening on port 502 and awaits for Modbus TCP frames It will react on command that are send to ID matching ID of MT 151 for that port Incoming Modbus TCP commands can be routed to other ports or GPRS according to routing rules defined in Modbus routing table thus allowing to communicate devices connected to different ports If command is routed to serial port it is automatically translated into Modbus RTU protocol If it is routed to GPRS then it is automatically translated to chosen in GPRS parameter section protocol 6 5 GPRS 24 MT 151 LED module is equipped with build in GSM GPRS modem which allows device to send and receive SMS messages and transmit data using GPRS network In sent SMS messages may be use special mnemonics which are dynamically changed to values from module memory Same mnemonics in received messages can be used for polling and or writing data to module More details about SMS commands can be found in SMS commands syntax chapter in Appendices GPRS data transmission allows to communicate device with remote server or other device accessible from APN assigned to used SIM card MT 151 is using two protocols for GPRS communication e MT Standard module communicates using the protocol and transmission protection created by Inventia This data frame is supported by all software tools provided with module e UDP Standard data is send in form of Modbus RTU command encapsulated in standard UDP data frame Data re
21. against uncontrolled sending of SMS messages and consequent high running expenses Number 0 65535 0 Setting this parameter to O removes daily SMS limit 7 1 3 7 2 Number of SMS sending retries Function Data type Range Default value Comments Defines maximum number of retries of unsuccessful SMS transmission Number 0 255 3 After reaching the defined value the SMS is deleted from sending queue 7 1 3 7 3 SMS limit exceed information 36 Function Data type Range Default value Comments Contains text of the SMS message sent upon reaching Daily SMS limit Text Letters numerals and special characters max 160 characters N A This information is sent beyond standard messages queue and only once a day This message does not increment sent SMS messages counter 7 1 3 7 4 Recipient of SMS limit exceed information Function Data type Range Default value Comments Selects the SMS limit alert recipient Selection list None and numbers defined in GSM gt Authorized numbers gt Phone list for SMS transmission None N A 7 1 3 7 5 Answer for blank SMS Function Data type Range Default value Comments 7 1 3 7 6 Formats Defines the text of reply for empty SMS to the sender Text Letters numerals and special characters max 160 characters Hello here MT 151 In replay message text may be used symbolic names and macros following syntax rules defined in Appendices in the SMS
22. commands syntax chapter Formats subgroup contains parameters allowing user to define formats of date and time presented in SMS messages 7 1 3 7 6 1 Date format Function Data type Range Default value Comments Defines date format used by date predefined symbolic name Text Letters numerals and special characters max 31 characters YYYY DD MM In 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 2013 YY if placed in this format text automatically changed for year in two digit notation e g 13 MM if placed in this format text automatically changed for month e g 07 for January DD if placed in this format text automatically changed for day of month e g 26 Example Parameter is set to Date of measurement YYYY MM DD Macro result is providing today is 26th of J uly 2013 Date of measurement 2013 07 26 37 7 1 3 7 6 2 Time format Function Defines date format used by time predefined symbolic name Data type Text Range Letters numerals and special characters max 31 characters Default value HH MN SS Comments Inthe 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 change
23. has built in battery charger capable of servicing batteries with capacity up to 7Ah Charger automatically charges battery if not fully charged For proper operation charger demand that module is powered with voltage higher than 18V Module can be started only if mains power supply is present 3 8 Enclosure MT 151 LED module is encapsulated in standard IP40 housing made of plastic compliant with safety requirements and protecting the module in standard operating environment The applied solution complies with standard industrial requirements for DIN rail mounting 4 Connection diagrams This chapter presents recommended wiring of external signals and installation of SIM card procedure 4 1 Binary inputs Binary inputs 11 116 in positive logic 11 11 12 12 13 13 14 14 12 13 14 I5 6 17 118 L 19 190 141 112 113 114 115 16 ANALOG INPUTS BINARY INPUTS 1 BINARY INPUTS 2 15 Binary inputs Q1 Q12 in positive logic Al 1 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC12 24 fee lo o gt fea ree ae os a on a afanes Attention e Power cables length should be lt 10m e Signal cables length should be lt 30m e For longer cables it is advised to use external overvoltage protection 4 2 Binary outputs Binary outputs Q1 Q12 in positive logic Al 1 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC12 24 ez BH aan as fa as fae far fas ao afanan BD
24. in Rules and also trigger record saving and logger transmission 7 1 6 3 1 Number of events Function Defines the length of the Event table Data type Number Range 0 32 Default value 0 Comments N A 7 1 6 3 2 Event table Idx Index number Name Friendly name facilitating identification of event purpose Max length is 16 characters Triggering bit Defines the bit which state change will trigger event 0 65535 or name from bit list see bit list in Appendices Triggering edge 0 gt 1 Trigger event on rising edge 1 gt 0 Trigger event on falling edge 69 O lt gt 1 Trigger event on any edge Write data blocks Toggles saving logger data blocks to logger as new record to logger on off on occurring event Default value is x off Trigger logger Toggles sending the logger content on off on occurring event sending Default value is x off Entries on this 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 Triggering bit Triggering edge Write data blocks to logger Triggering logger sending Binary input 11 7 1 6 4 Data blocks Data blocks subgroup contains definitions of data which then can be used send using Rules 7 1 6 4 1 Number of data blocks Function Defines the length of the Data block table Data type Number Range 0 32 Default value O Comments N A
25. is possible to set up routing rules for each port allowing to automatically pass data between communication ports Communication group contains lists of transmission tasks to be carried out upon occurrence of activating criteria There is also possibility to set up initial values for some of module resources like counters using MTManager Presets tool 7 1 1 Header The header contains basic information describing the module along with configuration version number and version of configuration file stored by the program Information displayed is for information and verification purposes only and thus not available for user configuration 25 7 1 1 1 Module name Function Displays name assigned to module during configuration Data type Text Range N A read only parameter Comments N A 7 1 1 2 Module type Function Displays the type of configured telemetry module Data type Text Range N A read only parameter Comments N A 7 1 1 3 Module serial number Function Displays serial number of telemetry module Data type Text Range N A Read only parameter Comments This field displays serial number assigned to module during manufacturing This number is static and unique identifier of the unit 7 1 1 4 Modem firmware version Function Displays modem firmware version Data type Text Range N A read only parameter Comments N A 7 1 1 5 IMEI number Function Displays GSM modem IMEI numb
26. to SIM1 slot according to the instructions from previous chapter and reconnect power 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 LED signaling subchapter in Problem solving chapter Login sequence 1 Module start 2 Verification of SIM card 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 modules startup is synchronizing the Real Time Clock of the module with the computer clock It is crucial since lack of synchronization may result with faulty time stamping of the data in logger and may lead to data loss More information about time synchronization is in MTManager user manual 6 Interfaces and communication methods 6 1 Port 1 PORT 1 is a optoisolated RS 232 485 port designed for communication with external devices Interface type and operating parameters are configurable using MTManager program suite delivered for free with module 6 1 1 Transparent mode 22 In this mode MT 151 LED communication from serial port Port 1 is channeled to other communication port or GPRS network according to rules defined in Transparent routing table This allows to communicate two or more devices using protocol not implemented in MT 151 LED If module receives on port opera
27. value Comments Defines address of first resource bit or register depending on address space of data block mapped from Modbus TCP Server to module Number 0 65535 0 setting this value to O disables data block 1 5 7 6 3 4 Mapped space size Function Data type Range Default value Comments Defines number of Modbus TCP Server device addresses bit or register depending on address space to be mapped to registers of module Number 1 2040 1 N A 63 7 1 5 7 6 3 5 Mapped space address Module 7 1 5 8 Routing tables Function Data type Range Default value Comments Defines address of register in Internal registers address space of module which is mapped to Modbus TCP Server resources defined in data block If data does not fit within one register e g 17 bits or 2 registers next register is used as well Number 0 8191 116 N A 1 5 7 6 3 6 Mapped space refresh interval Function Data type Range Default value Comments Defines in seconds interval between polls of Server resources within data block Data writes are also executed with this interval Number 0 65535 s 10 Entering O forces communication with maximum possible speed Routing tables group consists of tables defining data routing rules between Port 1 Port 2 Ethernet and GPRS There are different tables for different protocols 7 1 5 8 1 Number of Modbus routing table rules Function Data type Range Default value
28. 0Base TX port USB port KS port used for configuration programming and lagnostics MicroSD card reader Allows to install microSD memory card 3 2 1 Binary inputs MT 151 LED telemetry module is equipped with 16 optoisolated binary inputs marked as 11 116 which operate in both positive and negative logic Binary inputs are divided into two groups 11 18 and 19 116 with separate ground connector for each group In addition binary outputs Q1 Q12 can be individually configured to operate as binary inputs however they support only more common positive logic 3 2 2 Binary outputs MT 151 LED telemetry module is equipped with 12 optoisolated binary outputs marked as Q1 Q12 Outputs state can be controlled locally by user written program or from remote via GPRS SMS or using one of available communication ports In addition binary outputs Q1 Q12 can be individually configured to operate as binary inputs supporting positive logic 3 2 3 Analog inputs 4 20mA MT 151 LED telemetry module is equipped with 4 optoisolated analog inputs operating in 4 20mA range and marked as AI1 AI4 Analog inputs measurement can be scaled in engineering units e g in meters or percents For each analog input user can define 4 alarm levels 2 high and 2 low with hysteresis It is also possible to define deadband parameter each time measured value changes by value higher than defined by this parameter deadband bit assigned to this analog inputs ri
29. 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 84 11 Appendices 11 1 SMS commands syntax 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 only to internal registers placed in module s memory Characters with special meaning Character Description O O starts a command ATTENTION putting two hash signs one after another will prevent module from processing command foll
30. 45 7 1 4 3 10 Lo alarm ZTS lai e TTT CT 45 7 1 43 11 LoLo alarm engineering TT ET 45 7 1 4 3 12 Alarm hysteresis engineering Units eee eee ee eee eee 45 71 43 13 Deadband engineering Units TTT 46 TAAA Analogiinputs 0 10V AVI AV Dicta Macias 46 TLAA LN MO AA AAA AA io 46 1 1 4 4 2 Eng in ening UNES a a tada 46 7 1 4 4 3 LOW Feference internal Ud ii AAA AAA 46 7 1 4 4 4 Low reference engineering UNITS sese eee ee ee eee ee eee eee 47 71 445 High reference internal Units st AA emanates 47 7 1 4 4 6 High reference engineering UNItS cccccesceseesssesseceseecsseeeseecsseesseessaeesseecesecsseeseeeseseesseessaeessnessneeees 47 7 1 4 4 7 HiHi alarm engineering Units senn or E E EREE nn n nan ora naar nn A ran cnc nana AE 47 7 1 4 4 8 Hisalarm s engineering Un ts adas 47 T 1 4 4 9Lo alarm engineering Un siii ia a 48 7 1 4 4 10 LoLo alarm engineering Un Sci dido ca 48 7 1 4 4 11 Alarm hysteresis engineering Units eee eee ee eee eee 48 7 1 4 4 12 Deadband Engineeringiunits ics ss sn ai a lOa darnig 48 7 1 4 5 Counters ENT 1 lt CNT 16 PT 49 TAS A NMCEMENUNE INDUC TTT 7 1 4 5 2 Active edge of incrementing input 11 4 5 3 Decrementing is T 7 1 4 5 4 Active edge of decrementing put daa 50 7 1 4 5 5 Counting range 32 bits i di des da ansia 50 A O OOO 50 1 4 6 1 Syhehronoustimers CTL CTLO iii ita 50 TA 6 11 Start HASMM lesionada As 50 7 1 4 6 1 2 Period
31. 648 2147483647 Default value O Comments N A After entering new value counter field turns yellow It means that value visible in MTManager is not written to device To send new values to device press Write changes button second from the right on toolbar B WTM MT ML Manager General Edit View Transmission Configuration Help 1S eM KOR wes Gare O Tree List Find Favorites Device S JAD N i Ie 7 WD New project New module MT 151 R E New module MT 151 Er Presets e we m New module 73 8 Problem solvin 8 1 LED signaling LED indicators placed on MT 151 LED front panel are a great help during module startup and troubleshooting GPRS status Binary inputs 11 116 LED LED indicators of 11 116 LED indicators are signaling logical state of 11 116 pins on high state off low state 74 8 1 2 Binary outputs inputs Q1 Q12 LED indicators of Q1 Q12 LED indicators are signaling logical state of Q1 Q12 pins on high state off low state in both binary output and binary input mode If any of LEDs from this group is blinking with 2Hz frequency then module detected difference between state of corresponding output bit and actual state of pin It may happen when outputs arte not powered Q LED is off or are connected directly to ground 8 1 3 GSM status 2999 e 8 09 no 1010215 nans ne GSM status LED indicators GS
32. A Alx_DBD measurement change higher than deadband Alx_LoLo LoLo alarm flag l ALM 134 Alx_Lo Lo alarm flag Alx_Hi Hi alarm flag Alx_HiHi HiHi alarm flag int16 LoHi AV1_raw Analog input AV1 measurement mV Al1_HiHi Al1_LoLo I T N lt AI2 LoLo Al3_Lo Al1_Lo Al4 LoLo A12 HIH Al4 HiHi AI3_LoLo Pe Jue 464 Lu 318 9 a 0 O lt a a l 2 N N lt lt lt Lu i a a 0 a lt a q lt y y lt lt a Al3_ ABOVE All_ ABOVE Al3_ BELOW Al1_ BELOW Al3_ DBD Al1_DBD 27 432 28 448 29 94 Input registers binary inputs address space read only access using Modbus RTU and TCP functions 2 and 4 Address Name Description mo melee ejujejolelotelstelealalato ee eee 31 int16 LoHi Analog input AV1 measurement engineering units EH int16 LoHi Analog input AV2 measurement engineering units Alarm bits for AV1 AV2 analog inputs AVx_ABOVE measurement above 10V AVS BELOW measurement below OV i AVx_DBD measurement change 9 ALM_V12 higher than deadband lt AVx_LoLo LoLo alarm flag AVx_Lo Lo alarm flag AVx_Hi Hi alarm flag AVx_HiHi HiHi alarm flag 544 int16 LoHi AVAKU Battery voltage mV AV2_ Lo AV1_ ABOVE AV1_ BELOW AV1_ DBD int16 LoHi AVZ Power supply voltage mV CNT16_OVFL CNT15_OVFL CNT14_OVFL CNT13_OVFL CNT12_OVFL CNT11_OVFL CNT10_OVFL CNT9_OVFL CNT8_OVFL CNT7_OVFL CNT6_OVFL CNT5_OVFL CNT4_OVFL C
33. IM cards as it allows communication between devices and not only server and device Module support SIM cards using low voltage 3 3V technology It is advised to install SIM card after configuration of module to prevent module from writing wrong PIN to SIM ACTIVITY LNKE ACT HE Or 4 8 Power supply Power supply and 12V 7Ah battery backup power Al 1 2 PORT 1 BINARY OUTPUTS INPUTS nde v o p 3 x0tx0 at a2 as as as as a7 as a9 Jaro ari ar2 amp 3 Pin Group Description DC12 24 Positive pole of mains power supply connector GND Negative pole of mains power supply connector ACCU Positive pole of backup battery connector Negative pole of backup battery connector Built in battery charger requires power supply voltage higher than 18V 20 Attention e Power cables length should be lt 10m e Signal cables length should be lt 30m e For longer cables it is advised to use external overvoltage protection 5 Starting the module First start of the MT 151 LED module requires a few simple activities Please follow steps listed below 1 Connect signal wires and GSM antenna Recommended connections diagrams for signal wires and the antenna are in Connections diagrams chapter 2 First configuration of the module The scope of first configuration of MT 151 LED is to enter parameters enabling login to GSM network and optionally GPRS network A USB connection to the computer running MTMa
34. Jun Jul Aug Sep Oct Nov Dec 51 Default value Comments Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec all months are selected Timer is active when date and time of module RTC matching following equation X OR Y AND Z 1 where X 1 when current RTC day of week is selected on Days of week parameter if it is not then X 0 Y 1 when current RTC day of month is selected on Days of month parameter if it is not then Y 0 Z 1 when current RTC month is selected on Months parameter if itis not then Z 0 E g if selected day of week is Friday day of month is 13 and all months are selected timer will operate on all Fridays and on 13th day of each month 7 1 4 6 2 Asynchronous timers CK1 CK16 Synchronous timers measure cyclically defined time intervals They are not synchronized with module real time clock RTC they start counting time when module is powered on or reset Each time is counted CK flag corresponding to timer is set to high level for one program cycle 7 1 4 6 2 1 Activating input 7 1 4 6 2 2 Reset input 52 Function Data type Range Default value Comments Function Data type Range Default value Comments Defines the bit which state turns on bit set to logical 1 or off bit set to logical 0 timer Number or Selection list 0 65535 or name from bit list see bit list in Appendices None Bit addresses O 9999 point to analog inputs bi
35. M and GPRS LED indicators are signaling connection to GSM and GPRS network GSM LED on module logged into GSM network GPRS LED on module logged into GPRS network 75 8 1 4 Signal level GSM signal level LED indicator provides information about GSM signal strength Signal level signaled by one LED on is enough for stable GPRS communication More LEDs are on better the signal 8 1 5 GSM activity 19 MO 144 H2 113 14 145 16 Short blinks of Tx LED indicate data packet or SMS sending while Rx LED blink indicate reception of data packet or SMS 76 8 1 6 Serial ports activity LED indicator S MOBICON AA ea eon a Short blinks of Tx LED indicate data sending while Rx LED blink indicate data reception on serial port corresponding to LED indicator 8 1 7 Ethernet status LNK LED is signaling connection of proper Ethernet cable while ACT LED is signaling data transmission 77 8 1 8 Module status 099990999 7 w BY o no n nafns a ns fns S LEDs from this groups provide information about power and control program status Meaning of LED indicators e ERR LED when lit the ERR LED indicates an error forcing automatic reboot The reason may be lack of GPRS communication Triple flash of ERR LED indicates that current firmware does not support the function used in the program In this situation please update module firmware to most recent e OVR LED when lit the OVR LED indicate
36. NNA 52 0505 ccs alo AI A A AAA a ti noe ea 19 d SIM CARD INSTALLATION iio ins aaa in eok 20 A S POWER SUPPLY crac EREE HEES ITA IRE ea 20 Bs STARTING THE MODULE scceiccccdeaceccccceccteesessexeteccesscestsscscceccscadaccasecestseccctecscecsedsscsestiasssesacssecccccdecsdsesedsesses 21 6 INTERFACES AND COMMUNICATION METHODG ssssssssssssceeeeeeecccccccccssssssssssssssesceeeseeeccecccccessssssssceees 22 a el 22 CLAS TRANSPOLE NE MOG TTT 22 6 1 2 Modbus RTU Master le LT 23 6 2 MODBUS RTUISLAVE MODE vsere iia A TRET dR do TY TE TRENTE oats 23 E PORT 2 acca se cos Solel Shit TTT T 23 6 3 LA TOMSPOLENEIMOGE aeeoea a Aae a NAAA ss RRA ASI AARET Sete RARA TARA AR IATA ARIAS do 23 6 3 2 Modbus RTU Slave mode sss sss sese 23 CA ETHERNET PORT se eucoctsthsesupecccctcets Mme cdecet e 24 6 4 1 MOdDUS TER CONG ciiiiecsccciciccoscctncccitecacaeacactedecoacachasdvidsdiuataevadedsis ciasdsudududsdueudadeiddv vdsiusuchdedsassitecsadsaatys 24 6 4 2 Modbus TCP Slave 65s GPRS reeperi eiai Te CONFIGURATION v ccesiccssicccesdccesssconsvescsesceevsceeestecestecoussdossssdeessseos svecsesecsescesercesedscsedesscestecosess oneaseeessuvensencese TL PARA METER GROSA dnebeadbpawbungyaionebbes baba nncnlabbansbbopeitonbancheteues TILA lt Te L ii A a A aad ved eae 7 1 1 1 Module name ASIA UA NT 7 1 1 3Module serial UMD irc anil E es ae ee ee ee 26 7 1 1 4 Modem firmware versi n aci eel Minna anew e o ae 26 FLL SIME AA Mb
37. NT3_OVFL CNT2_OVFL CNT1_OVFL i BS j gt CNT_OVFL F overflow bits set for 1 program Asynchronous timers flags set for 1 program cycle SLx_ok 1 when data block x communication on serial port is OK SL16_ok SL15_ok SL14_ok SL13_ok SL12_ ok SL11_ok SL10_ok SL2_ok CK2 95 Input registers binary inputs address space read only access using Modbus RTU and TCP functions 2 and 4 Program counters Cx overflow flags Program timers Tx flags TSLx_ok 1 when data block x communication on Ethernet port is OK TSL11_ok TSL10_ok MTx bit informs about receiving data to MT2MT buffer from device which IP number is saved on x position on Authorized gt IP list MT2MT_11 MT2MT_10 MT2MT_9 TSL9_ok a o a EAT A eee tele pre cs MT2MT_21 MT2MT_5 TSL5_ok Ea c5 MT2MT_17 MT2MT 1 TSL1_ok AJ MT2MT_25 MT2MT_27 MT2MT_26 war ramas suso ls MT2MT_31 MT2MT_15 TSL15_ok MINAS mramrso irua sita ox ME MT2MT_29 MT2MT_13 TSL13_ok MT2MT_28 MT2MT_12 TSL12_ok MT2MT_20 MT2MT_4 TSL4 ok EN c4 MT2MT_19 MT2MT_3 TSL3 ok Ea C3 MT2MT_18 MT2MT_2 TSL2_ok T2 Last restart code 32 restart after new configuration Tar 2032 mbro eer 64 restart after firmware update 128 restarted by system 2112 int16 LoHi SYG_LEV GSM signal level 2128 FIRMWARE_VER Firmware version y xx zz encoded in int32 LoHi 2144 HEX aiai intL6 LoHi PRG_CLINE Number of program lines ex
38. Telemetry Module MT 151 LED C User Manual Tel or faz fas fos la la lar la telemetria pl in entia CE Telemetry Module MT 151 LED User Manual GSM GPRS Telemetry Module for monitoring and control Class 1 Telecommunications Terminal Equipment for GSM 850 900 1800 1900 INVENTIA Sp z 0 0 v0 11 MT 151 LED 2013 Inventia Sp z 0 0 Wszelkie prawa zastrzezone Zaden fragment niniejszego dokumentu nie moze by powielany lub kopiowany W zadnej formie bez wzgledu na stosowana technologie graficzna elektroniczna lub mechaniczna wtaczajac fotokopiowanie i lub zapis cyfrowy rowniez 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 ze nie roszcza 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 redn
39. able thus allowing to communicate devices connected to different ports If command is routed to Ethernet port it is automatically translated into Modbus TCP protocol If it is routed to GPRS then it is automatically translated to chosen in GPRS parameter section protocol 6 3 Port 2 PORT 2 is a RS 232 serial port with 5V power output dedicated for communication with control panels and other devices It is not optoisolated 6 3 1 Transparent mode In this mode MT 151 LED communication from serial port Port 2 is channeled to other communication port or GPRS network according to rules defined in Transparent routing table This allows to communicate two or more devices using protocol not implemented in MT 151 LED If module receives on port operating in that Modbus RTU command to ID which is matching ID for Port 2 it will respond to that command allowing user to get data from device 6 3 2 Modbus RTU Slave mode In this mode MT 151 module acts on this port as Modbus RTU Slave device and awaits for incoming Modus RTU commands It will react on command that are send to ID matching ID of MT 151 for that port Incoming Modbus RTU commands can be routed to other ports or GPRS according to routing rules defined in Modbus routing table thus allowing to communicate devices connected to different ports If command is routed to Ethernet port it is automatically translated into Modbus TCP protocol If it is routed to GPRS then it is automatically transl
40. alarm flag is risen The resetting level of this flag depends on Alarm hysteresis engineering units setting 7 1 4 3 12 Alarm hysteresis engineering units Function S Data type Range S Default value Comments Defines in engineering units hysteresis for analog inputs alarms Number 0 65535 100 Setting proper value prevents from too often turning on and off alarms when measured value is oscillating around alarm value 45 7 1 4 3 13 Deadband engineering units Function Defines a minimum change of registered analog signal which should set to high state deadband flag corresponding to analog input where the change was detected Al1_DB Al4_DB This flag is reset to O after one program cycle Data type Number Range 0 65535 Default value 100 Comments Deadband is very useful for tracking analog signal on server data is send only when analog input changes 7 1 4 4 Analog inputs 0 10V AV1 AV2 MT 151 is equipped with two voltage analog inputs operating in 0 10V range All parameters are set individually for each input 7 1 4 4 1 Name Function Friendly name facilitating identification of the analog input task Data type Text Range Letters and numerals max 31 characters Default value Respectively AV1 and AV2 Comments N A 7 1 4 4 2 Engineering units Function Allows user to enter unit name for information purpose Data type Text Range Letters and numerals max
41. alue Comments Defines number of constant parameters on list Number 0 128 0 N A 128 Defines value of constant parameter Number 32768 32767 0 N A 7 1 5 Communication ports Communication ports group contain parameters configuring operation of serial ports Ethernet and routing data between communication interfaces of device 53 7 1 5 1 Modbus ID Port 1 Function Data type Range Default value Comments 7 1 5 2 Modbus ID Function Data type Range Default value Comments 7 1 5 3 Modbus ID Function Data type Range Default value Comments 7 1 5 4 Modbus ID Function Data type Range Default value Comments 7 1 5 5 Port 1 Defines Modbus ID for internal resources of device on Port 1 Modbus RTU Number 0 255 Y setting this value to O disables access to device resources from serial port Port 1 Port 2 Defines Modbus ID for internal resources of device on Port 2 Modbus RTU Number 0 255 Y setting this value to O disables access to device resources from serial port Port 2 Ethernet Defines Modbus ID for internal resources of device on Ethernet port Modbus TCP Number 0 255 Y setting this value to O disables access to device resources from Ethernet port GPRS Defines Modbus ID for internal resources of device for polls incoming via GPRS network Number 0 255 Y setting this value to O disables access to device resources from GPRS
42. arameter is visible only when Transmission type parameter is set to SMS Defines data block which is sent via GPRS by rule Selection list None and events defined in Data block table None Parameter is visible only when Transmission type parameter is set to GPRS 7 2 Presets In order to expand module application area it is furbished with initial settings for some resources It is necessary when the module is operating as a pulse counter for measuring devices e g water consumption meter with pulse output having initial count other than zero Due to Presets the actual value of counter register may be equalized with mechanical counter of the device thus not disturbing the functionality of the system In order to set Presets go to Configuration menu and select the Initial settings option or click following icon on the toolbar The Presets icon is active only when the module is connected and selected transmission channel is not set to Spooler Sending data in Presets mode is possible only as sending changes Bear in mind that sending configuration changes result in immediate and irrevocable updating of the resource When Presets mode is selected all configuration groups disappear from the panel and only parameters that may have initial value set are displayed For MT 151 module those parameters are counters CNT1 CNT16 7 2 1 Counters CNT1 CNT16 Name of resource counters CNT1 CNT16 Data type number Range 2147483
43. arameters for this mode 7 1 5 6 5 1 Max data packet size Function Data type Range Default value Comments Defines maximum size of data packet in bytes Number 1 1408 256 If number of data bytes in receiving buffer reaches declared value data packet is sent according to rules defined in Transparent routing table 7 1 5 6 5 2 Data frame delimiter 60 Function Data type Range Default value Comments Defines in seconds minimum interval between receiving data packets Number 0 00 655 35 s 1 00 s If no new data arrives to receiving buffer within declared time data already saved in that buffer is sent according to rules defined in Transparent routing table 7 1 5 7 Ethernet Subgroup Ethernet contains parameters configuring operation of Ethernet port 7 1 5 7 1 Use of Ethernet Function lt Data type Range Default value Comments 7 1 5 7 2 IP address Function S Data type Range Default value Comments 7 1 5 7 3 Subnet mask Function Data type S Range Default value Comments Enables communication via Ethernet port Selection list No Ethernet port is disabled Yes Ethernet port is enabled No MT 151 operates on Ethernet port as Server it allows remote connection from clients which then can poll for data or write to device When needed module connects as client to servers to poll for data according to Modbus TCP Client data blocks or when transmit
44. ata block mapped from Slave to module Number 0 65535 0 setting this value to O disables data block 7 1 5 5 7 3 1 4 Mapped space size Function Data type Range Default value Comments Defines number of Slave device addresses bit or register depending on address space to be mapped to registers of module Number 1 2040 1 N A 7 1 5 5 7 3 1 5 Mapped space address Module Function Data type Range Default value Comments Defines address of register in Internal registers address space of module which is mapped to Slave resources defined in data block If data does not fit within one register e g 17 bits or 2 registers next register is used as well Number 0 8191 1160 N A 7 1 5 5 7 3 1 6 Mapped space refresh interval Function Data type Range Default value Comments 7 1 5 6 Port 2 Defines in seconds interval between polls of Slave resources within data block Data writes are also executed with this interval Number 0 65535 s i Entering O forces communication with maximum possible speed This speed depends on port communication speed and number of data blocks Subgroup Port 2 contain parameters configuring operation of RS 232 serial port Port 2 7 1 5 6 1 Operating mode Function Data type Range Default value Comments Defines operating mode of serial port Port 2 Selection list Inactive Serial port Port 2 is disabled Transparent Serial port communication is chann
45. ated to chosen in GPRS parameter section protocol 23 6 4 Ethernet port MT 151 LED telemetry module is equipped with Ethernet 10Base T 100Base TX port used for communication with external devices MT 151 operates simultaneously as Master and Slave on this port Communication via this port is possible only with devices added to Authorized IP addresses list 6 4 1 Modbus TCP Client Modbus TCP Client functionality allows MT 151 to poll for data from and write data to external Modbus TCP Server devices connected to that port using Data blocks Each Data block defines number of addresses in Server device and matching registers in Holding Registers address space in module Module polls for data with given interval and saves it in module If new data is saved to those registers by SMS GPRS transmission control program or any other method this new data will be written to Server In this mode MT 151 is using Modbus TCP functions 1 2 3 and 4 for polls and 5 6 for writes For each data block there is TSLx_ok bit where x is following number of data block which informs about proper communication within this data block Also polls and writes from external devices communicating with MT 151 can be routed to Ethernet device according to rules defined in Modbus routing table All those commands are automatically translated to Modbus RTU protocol Modbus TCP Client connects to servers using port 502 6 4 2 Modbus TCP Slave MT 151 operates as
46. bout module status via system flags Most important bits are e FS1_ acu when set to 1 then battery is connected to module e FS1_q when set to 1 then there is no power provided for binary outputs e FS1_gprs when set to 1 then module successfully logged into GPRS network e FS1_gsm when set to 1 then module successfully logged into GSM network Full list of System flags is available in Memory map chapter in Appendices 3 3 8 Control program PLC functionality of MT 151 LED module allows user to define algorithm of control and data processing in form of control program Program can be written in three languages available in MTManager Program is executed once a program cycle There is 50ms delay between program cycles Within this time module is capable of processing up to 10000 program lines If program tries to execute more than 10000 lines it will be terminated in this program cycle Maximum program length is 5000 lines Below is presented sample program which executes start stop algorithm with two momentary inputs 11 start 12 stop and one output Q1 B MTM MT ML Manager General View Transmission Programmer Help eee GOS Tree Tala farc Text mode Ladder mode MTprog mode New project 1 include MT 151 h Gan New module MT 151 boolean AND X Y ON OFF Q1 using two momentary inputs boolean OR X Y 11 ON and 12 OFF compare boolean X and Y negate boolean X is X grater then Y i
47. ception control is not available when using that data frame format Detailed description of UDP Standard communication is available upon request from Inventia technical support team 7 Configuration MT 151 just like other MT devices is configured using MTManager MTM which is provided for free with all MT equipment MTManager is unified program environment allowing to set up and maintain over whole telemetric system or systems regardless of its scale Possibility of arranging devices in groups of projects or putting them in folders makes effective managing of telemetry system easy All described on next pages parameters are available in MTManager configuration module after adding MT 151 to project Detailed description of MTManager functionality is provided in MTManager User Manual 7 1 Parameter groups For clarity and ease of use module configuration parameters of MT 151 were divided into logically or functionally connected groups in the following order Header group contains unmodifiable parameters describing the module its firmware and configuration General group contains basic configuration parameters e GSM group contains parameters responsible for GSM GPRS networking Resources group defines parameters of hardware and software resources related with measurements Communication ports group contains parameters controlling both local and remote communication using serial and Ethernet as well as GPRS transactions It
48. cords as sent In case of overflowing logger the oldest records are overwritten 3 3 2 Registers MT 151 module provides access to measurements and other data via 16 bit register divided into two groups according to Modbus device model Input Registers read only and Holding Registers read write access Remote access to registers is possible via SMS GPRS Modbus TCP and Standard Inventia protocol serial ports Modbus RTU and Ethernet port Modbus TCP Internal registers starting from address 1024 and Input register are zeroed after module restart e g power off module update Internal registers to address 1023 are nonvolatile There is possibility to access single bits of Input and Holding Registers there is possibility to address them as Binary Inputs for Input Registers and Binary Outputs for Holding Registers Detailed description of addressing method is described in Memory map chapter in Appendices Full list of register is available in Memory map chapter in Appendices 3 3 3 Counters MT 151 LED 16 general purpose counters Their purpose is to count pulses understood as binary signal changes of any bit present in the memory map Each counter has one incrementing and one decrementing input and assigned 32 bit register holding the difference of counted pulses Initial state of the counters may be defined by user activating MTManager menu item Initial settings more info in MTManager manual 3 3 4 Timers MT 151 LED m
49. current value 0 int32 LoHi REG_CK2 CK2 asynchronous timer current value 99 0 int32 LoHi CNT13 32 bit counter register 20 a8 Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 Address BE Name f ss Description reg wit asar fas faro fo ea lr fofs safafafi3aJol lar int32 LoHi REG_CK3 CK3 asynchronous timer current value a int32 LoHi REG_CK4 CK4 asynchronous timer current value EE int32 LoHi REG CKS CK5 asynchronous timer current value es 736 int32 LoHi REG_CK6 CK6 asynchronous timer current value as 768 Las 784 int32 LoHi REG_CK7 CK7 asynchronous timer current value 784 int32 LoHi REG_CK8 CK8 asynchronous timer current value int32 LoHi REG_CK9 CK9 asynchronous timer current value vie int32 LoHi REG CK10 CK10 asynchronous timer current Fite int32 LoHi REG CK11 CK11 asynchronous timer current 8 C int32 LoHi REG CK12 CK12 asynchronous timer current value int32 LoHi REG_CK13 ae asynchronous timer current Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 Address B Name Description 62 992 7 int32 LoHi REG_CK14 G asynchronous timer current 63 1008 mae 1024 int32 LoHi REG CK15 CK15 asynchronous timer current 1040
50. d Detailed description of UDP Standard communication is available upon request from Inventia technical support team 7 1 3 6 4 GPRS transmission retries number Function Data type Range Default value Comments Defines number of attempts to send data through GPRS network if the reply to original transmission does not arrive ina timely manner specified by Transmission timeout parameter Number 0 9 2 Setting the value to 0 results in sending data without waiting for reception confirmation In normal conditions the value should not exceed 3 This prevents loss of transmitted data without blocking of subsequent rules processing Bear in mind that subsequent data will be sent after reception of confirmation for reception of previous frame 7 1 3 6 5 Transmission timeout Function Data type Range Default value Comments Defines the wait time for reception confirmation of sent data frame Number 1 60 s 8 s 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 2 1 8 24s After that time module drops data frame from queue 35 7 1 3 7 SMS SMS contains parameters related to sending and receiving of text messages by 151 LED module 7 1 3 7 1 Daily SMS limit Function Data type Range Default value Comments Defines maximum number of SMS the module may send during one day The parameter protects
51. d by the parameter GPRS testing address Test frames are sent when the module is logged into APN and no communication is performed during the defined by this parameter period If the test fails that is the module does not receive confirmation within 12 seconds and after 3 retries the connection to the APN is reset address ping Defines IP address used for sending GPRS transmission test frames 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 test frames are sent to IP chosen by module from Authorized IP list It is advised to set this parameter to IP address of device collecting data or other IP address always connected to APN 33 7 1 3 5 7 Roaming Function Data type Range Default value Comments 7 1 3 6 GPRS Defines whether operation in foreign GSM network is allowed Selection list On In case of absence of home network the module will attempt to login to other available network Off Login into foreign networks is not allowed Off This parameter decides whether module will try to login to available foreign networks in the absence of home network This is possible only when the SIM card in module has roaming service enabled GPRS contains parameters applying to GPRS communication handling valid for both SIM cards 7 1 3 6 1 Sender IP address control Function Data type Range Default value Comments Switches the control of sender IP address on o
52. d for current minutes e g 23 SS if placed in this format text automatically changed for current seconds e g 45 Example Parameter is set to Time of measurement HH MN SS Macro result is providing the time is 01 23 45 Time of measurement 01 23 45 7 1 3 7 7 Symbolic names Symbolic names group contains names assigned by the user referring to bits or registers There can be defined up to 32 symbolic names In order to use a Symbolic name in SMS put it name preceded by sign in SMS text and send it from module it will be automatically changed to value of corresponding register or bit Symbolic names can be used in macros and to poll module for data using SMS More about SMS messaging can be found in SMS commands syntax chapter in Appendices 7 1 3 7 7 1 Number of symbolic names Function Defines number of user defined symbolic names Data type Number Range 1 32 Default value 1 Comments N A 7 1 3 7 7 2 Symbolic name table 38 Idx Index number Symbolic name Friendly name facilitating identification of module resource Letters numerals and special characters max 50 characters Default value is IREGO Address space Binary Inputs Binary inputs address 1XXX read only Binary Outputs Binary outputs address OXXX read write Input Registers Input registers address 3XXX also known as analog inputs address space read only Holding Registers Holding registers address 4XXX also kno
53. data to external Modbus RTU Slave devices Each block is matching group of addresses from one slave device with group of registers in Internal registers address space in device Data from external devices is polled from external device and written into those registers Saving new data to those registers either by program or from remote via GPRS or other communication port or method automatically saves this data into Modbus RTU Slave device 7 1 5 5 7 3 1 Data block read write 7 1 5 5 7 3 1 1 Modbus Slave ID Function Defines Modbus ID of Slave which should be polled under this data block Data type Number Range 0 255 Default value 1 Comments setting this value to O disables data block 57 58 7 1 5 5 7 3 1 2 Address space in Slave Function Data type Range Default value Comments Defines address space of Slave device where from data will be polled Selection list Binary Inputs Binary inputs address 1XXX read only Binary Outputs Binary outputs address OXXX read write Input Registers Input registers address 3XXX also known as analog inputs address space read only Holding Registers Holding registers address 4XXX also known as internal registers and analog outputs address space read write Binary Inputs N A 7 1 5 5 7 3 1 3 Mapped space address Slave Function Data type Range Default value Comments Defines address of first resource bit or register depending on address space of d
54. e dee dd 26 DALE AMARE VEO A cand ee 26 FO I e 2 lt T TH STR TTT 27 F e CONTO Te 21511 27 7 42429 Last configuration date na aci 27 EF D T 19 Last PEA iN aO E E EEEE S OET RE EE E E AEE 27 7 1 2 General 7 121 Devi dei A A E a 7 1 2 2 Mod Pi a LIB 7 1 2 3Configuration password ainia ii Ai lata 7 1 2 4 Configuration read disable IS A A O NON 7A Eo PE Mi A A a AEA T aa 7 1 3 1 Number of SIMicardS is acia ii aiii fied TELL 1 ii td 29 7A e pe UET ESIN E E E E 30 E A NN 30 7 1 3 4 1 SIM card PIN number 30 T ABAD dE OS NS 30 E APN BT dT 31 7 43 4 4 APNipdasSWOMd ditase T 31 7 1 3 4 52 GPRS testing interval POP adas 31 7 13 4 6 GPRS testing address ping 2 lt 2ess02ne eee ie i ee eee nd LL a 31 TeV AST ee aT TT 32 73 5 A tesco aie eateries eae agen hace ee ee 32 F163 5heSIM card PIN MUMBO Rr iia id neo seine cen 32 FAB 2 APN Name we isi eect TTT adel Ae el a a 32 7 1 3 5 3 APN user name i393 KO Ie D A N ES CN 33 7 1 3 5 5 GPRS testing interval ping i e cee eed aa elie da 33 7 1 3 5 6 GPRS testing address ping iii as 33 R CN ETE TAE TE TET 34 E e Si o e ed Lo 34 1 1 3 6 1 Sender IP address CONtrol mi A A da da 34 7 1 3 6 2 Wait time after disconnecting p E E E E E E E 34 7 1 3 6 3 UDP d ta frame ea 35 7 1 3 6 4 GPRS transmission retries number iii aaa 35 7 1 3 6 5 Transmission timeout LBS Ma a rl leas do dol de e eh ese E alfa ce LODO 11 31 ET DR 0 9 TI ninia pis teeters Anan 36 7 1 3 7
55. eccsccccsssssseseceseeesessoossesssees 85 117 T SMS COMMANDS SYNTAX iezscdesnsccccaevegaencssstsiusdaedesohes sad suacnancas cer 85 DA D s BUT LIST aceoae cc O de caadicu bu revs dose E E cesses pees aes 91 MEMORIA A E A EEE E E E E Mone aaa 92 11 3 1 Input registers binary inputs address SPACC cccesseceesssesseeessessssceessessssseessessseeseecusseessecesssessseessees 93 11 3 2 Holding registers binary outputs address Space s sese 98 1 Module destination Telemetry Module MT 151 LED is a device which incorporates functions of industrial PLC logger and protocol converter enriching it with robust wireless GSM GPRS connectivity Thanks to access to two independent GSM GPRS networks Dual SIM technology used in this device ensures continuity of data flow not achieved in other solutions Ethernet and two serial ports are powerful tools allowing communicating with other devices thus further expanding resources available to be used by user With compact robust design integral GSM modem attractive technical features and easy to use configuration tools the MT 151 LED controller is an optimal solution for demanding wireless telemetry control diagnostic surveillance and alarm systems General attributes of MT 151 LED e Dual SIM technology possibility of using 2 SIM card Integral quad band 850 900 1800 1900 GSM modem 6 optoisolated binary inputs 12 optoisolated binary outputs with possibility of operation as binary inputs selected inde
56. ecuted in previous program cycle 136 2176 int16 LoHi PRG_CTIME Time of execution of previous program cycle ms 96 Input registers binary inputs address space read only access using Modbus RTU and TCP functions 2 and 4 int16 LoHi PAR_128 Parameter 128 97 11 3 2 Holding registers binary outputs address space Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 Address PES AP ETA Description Lo Reserved BBH W PS1_STOP writing 1 stops program O starts program Bits controlling binary outputs pos or oro 09 os a7 os os o o DIE jo on POUT _ 1 output set to high level 0 low level A int32 LoHi CNT1 32 bit counter register 1_STOP PS int32 LoHi 32 bit counter register 98 Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 Address Name Ci escription Reg wit a5 a4 as T TSS 18 288 int32 LoHi CNT8 32 bit counter register int32 LoHi CNT9 32 bit counter register int32 LoHi CNT10 32 bit counter register as int32 LoHi CNT11 32 bit counter register 25 400 int32 LoHi CNT12 32 bit counter register Eg int32 LoHi CNT14 32 bit counter register a 496 int32 LoHi CNT15 32 bit counter register int32 LoHi CNT16 32 bit counter register int32 LoHi REG_CK1 CK1 asynchronous timer
57. eled to other communication port or GPRS network according to rules defined in Transparent routing table Additional configuration parameters are available in Transparent mode group Modbus RTU Slave MT 151 operates as Modbus RTU Slave on Port 2 serial port External Master device can poll for data from and write data to module Inactive N A 7 1 5 6 2 Transmission speed Function Data type Range Default value Comments 7 1 5 6 3 Stop bits Function Data type Range Defines transmission speed in bits per second Selection list 1200 2400 4800 9600 19200 38400 57600 115200 bps 9600 bps N A Defines number of stop bits used during communication Selection list Lz 59 Default value Comments 7 1 5 6 4 Parity Function Data type Range Default value Comments 1 When one of Modbus operating modes is selected this parameter value does not influence communication number of stop bits is automatically chosen according to Parity setting Defines parity control of transmitted byte Selection list None Even Odd None When one of Modbus operating modes is selected this parameter overrides Stop bits parameter setting as follows None 1 stop bit Even or Odd 2 stop bits 7 1 5 6 5 Transparent mode In this mode communication on serial port Port 2 is channeled to other communication port or GPRS network according to rules defined in Transparent routing table This group lists additional communication p
58. er Data type Text Range N A read only parameter Comments N A 7 1 1 6 Firmware version Function Displays module firmware version Data type Text Range N A read only parameter Comments N A 26 7 1 1 7 Configuration file version Function Z Data type Range S Comments 7 1 1 8 Configuration Function Data type Range Comments Displays version identification of configuration file used for actual configuration Text N A read only parameter Value depends on module firmware version Auxiliary extension character defines the sub version identifier Displays identification number of current configuration Hexadecimal number N A read only parameter The value of this parameter increases automatically by 1 after each successfully written configuration 7 1 1 9 Last configuration date Function Data type Range E Comments Displays date and time of last successful configuration change Text N A read only parameter The value changes automatically after each successful configuration change It is useful for tracing unauthorized configuration changes 7 1 1 10 Last reading time Function Z Data type S Rande S Comments 7 1 2 General Displays internal module time recorded during last configuration reading or during last time setting Text N A read only parameter This field is useful in verifying last access time and checking internal module clock RTC setting
59. er 4 H HR4 01AC Read 8 bits starting from address 16 Input Registers 1 FB8 IB16 Read decimal number consisting from 6 bits starting from address 64 Input Register 4 D6 1B64 Write single bit to register Bit 0 to Holding Register 3 HB48 1 Read signed number from register FS IR18 11 2 Bit list During its operation MT 151 is setting a series of binary variables associated with the I O and module diagnostics MTManager for user convince has implemented list of predefined bits a 11 ta 16 Binary inputs 11 116 s inputs I1 116 Binary inputs 1Q1 1Q12 outputs Q1 Q12 operating in 1Q1 1012 binary input mode Q1 Q12 Binary outputs Q1 Q12 CT1 CT16 Synchronous timer flags CT1 CT16 CK1 CK16 Asynchronous timer flags CK1 CK16 Analog inputs 4 20mA alarm bits LoLo alarm Measured AII kokos Ag EGEO value lower than LoLo alarm threshold AIl Lo Al4 Lo Analog inputs 4 20mA alarm bits Lo alarm Measured value lower than Lo alarm threshold l Analog inputs 4 20mA alarm bits Hi alarm Measured ee A value higher than Hi alarm threshold cues as Analog inputs 4 20mA alarm bits HiHi alarm Measured Ayaan eae R value higher than HiHi alarm threshold Analog inputs 0 10V alarm bits LoLo alarm Measured GI value lower than LoLo alarm threshold AV1 Lo AV2 Lo Analog inputs 0 10V alarm bits Lo alarm Measured value gt lower than Lo alarm threshold Analog inputs 0
60. es 0 9999 point to analog inputs binary inputs address space while addresses 10000 65535 point to Internal registers binary outputs address space More information on calculating bit addresses can be found in Memory map chapter in Appendices 7 1 4 5 2 Active edge of incrementing input Function z Data type Range Default value Comments 7 1 4 5 3 Decrementing Function Data type Range Default value Comments Defines edge of incrementing bit which increments counter value by 1 Selection list 0 gt 1 logical state change from 0 to 1 1 gt 0 logical state change from 1 to 0 0 gt 1 N A input Defines the bit which state change decrements counter value by 1 Number 0 65535 or name from bit list see bit list in Appendices N A Bit addresses 0 9999 point to analog inputs binary inputs address space while addresses 10000 65535 point to Internal registers binary outputs address space More information on calculating bit addresses can be found in Memory map chapter in Appendices 49 7 1 4 5 4 Active edge of decrementing input Function Data type Range Default value Comments Defines edge of decrementing bit which decrements counter value by 1 Selection list 0 gt 1 logical state change from O to 1 1 gt 0 logical state change from 1 to 0 0 gt 1 N A 7 1 4 5 5 Counting range 32 bits Function Data type Range Default value Comments 7 1 4 6 Timers
61. f 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 lowest address being least significant ittle endian It is worth noting that use of D prefix to display more than 16 bits of data will return different results when combined with different access modes registers bits Such behavior is result of storage model used for multi register 32 or 64 bit data Most significant word is stored in register with lowest address big endian and consequently on bits with lowest addresses Register access obeys this storage model but bit access does not treating bits as linear space from bit with lowest address to bit with highest address So if one tries to read two registers using register access D2 IRO then such a command can return 134749453 but bit access to 32 bits from two registers D32 IBO will return 487393288 The same applies to H prefix and to write access 89 90 Predefined symbolic names Name Description TIME Returns local time read from RTC registers DATE Returns local date read from RTC registers Other examples Read Input Registers address 23 IR23 Write value 1 to Holding Register 3 HRO 3 Binary representation of Input Register 17 readout B IR17 Read flag bit 4 B IB17 Write hexadecimal value O1AC to holding regist
62. ff Selection list Yes The module exchanges information only with IP addresses present on the Authorized IP list No The module exchanges information configuration responses for queries with any IP address sending qualified query or command In this case the identification of the sender goes by its current identifier Yes Switching the control off enables verification of the sender on the base of its currently assigned identifier other than IP address e g serial number or virtual IP for MT 1XX series This allows communication among units with dynamically assigned IP addresses within same APN Sender s identifier must reside on Authorized IP list in order to establish the communication 7 1 3 6 2 Wait time after disconnection 34 Function Data type Range Default value Comments Defines interval between GPRS connection attempts Number 0 01 655 350 s 5 00 s N A 7 1 3 6 3 UDP data frame format Function Data type Range Default value Comments This parameter selects data frame type used by module for GPRS communication Selection list MT Standard Module communicates using the protocol and transmission protection created by Inventia This data frame is supported by all software tools provided with module UDP Standard Data is send in form of Modbus RTU command encapsulated in standard UDP data frame Data reception control is not available when using that data frame format MT Standar
63. gramable alarm both positive and levels and hysteresis negative logic Binary inputs state indicator LEDs g Device status indicator LEDs GSM signal level LED indicators ORO SHSSO COSOS ROSH OO SHSROS E csm orns elelee ICAO TSEC USB port for foc Kre e RETOS en ae E ER E configuration and A y programming SMA f antenna DEA A ARN n TEPS socket with S AOS IS oren connected antenna gt us MOBICON h Ethernet port status y PORTIACTIVITY 4 C FOND ASET sm MICRO st LED indicators v YB BKT nm mR lm om w Power status S indicator LEDs MicroSD card slot Serial ports PORT 1 Oo and PORT 2 activity LED indicators rT T I PUF n D o 3 Rxo Tx0 at az as as as fas a7 as as fatojanfar 12 WIVMPISIAG MOD ONO OI IAIN TDN GAY GSS Ethernet port T DC power supply Optoisolated RS 232 serial port Da RS 232 485 serial with 5V power Optoisolated binary port dedicated for output dedicated for outputs inputs communication with external control operatig in positive external devices panel logic Analog inputs 0 10V with programable 12V battery alarm levels and connector hysteresis 3 2 Hardware resources Hardware resources of MT 151 LED Cane TT Pes q12 binary outputs that can operate as binary inputs Cani ara 4 20mA current analog inputs PORT 2 RS 232 serial port with 5V power output Ethernet port Ethernet 10Base T 10
64. io lub po rednio z niniejszym opracowaniem All rights reserved No parts of this work may be reproduced in any form or by any means graphic electronic or mechanical including photocopying recording taping or information storage and retrieval systems without the written permission of the publisher Products that are referred to in this document may be either trademarks and or registered trademarks of the respective owners The publisher and the author make no claim to these trademarks While every precaution has been taken in the preparation of this document the publisher and the author assume no responsibility for errors or omissions or for damages resulting from the use of information contained in this document or from the use of programs and source code that may accompany it In no event shall the publisher and the author be liable for any loss of profit or any other commercial damage caused or alleged to have been caused directly or indirectly by this document Wydawca INVENTIA Sp z 0 0 ul Kulczynskiego 14 02 777 Warszawa Tel 48 22 545 32 00 inventia inventia pl www inventia pl Wersja 0 11 Warszawa 07 2013 Kompatybilno MTC 0 11 INDEX T MODULE DESTINATION AAA O O 7 2 GSM REQUIREMENTS asccssescitcciscccteacctscedecsaidesisateteoccececccesiecassancsessuddedececcdeacsdsesdesssdvesisassiencincbececedatestasssisesce 7 3 MODULE DESIGN oi scscsdssehsccedscccecccccdacosselscescseccevtccsteccudedcuesctved
65. is parameter then the LoLo alarm flag is risen The resetting level of this flag depends on Alarm hysteresis engineering units setting 7 1 4 4 11 Alarm hysteresis engineering units 7 1 4 4 12 Deadband 48 Function Data type Range Default value Comments Function Data type Range Default value Defines in engineering units hysteresis for analog inputs alarms Number 0 65535 100 Setting proper value prevents from too often turning on and off alarms when measured value is oscillating around alarm value engineering units Defines a minimum change of registered analog signal which should set to high state deadband flag corresponding to analog input where the change was detected AV1_DB and AV2_ DB This flag is reset to 0 after one program cycle Number 0 65535 100 Comments Deadband is very useful for tracking analog signal on server data is send only when analog input changes 7 1 4 5 Counters CNT1 CNT16 Counters may be used to count any pulses interpreted as bit or binary input state changes Counters are equipped with two inputs each one incrementing and one decrementing counter register value 7 1 4 5 1 Incrementing input Function S Data type Range Default value Comments Defines the bit which state change increments counter value by 1 Number or Selection list 0 65535 or name from bit list see bit list in Appendices N A Bit address
66. isters and Holding 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 arranged by their addresses for addressing registers To calculate the addresses of the individual bits in the Binary Inputs use the following equation register_address 16 bit_position bit_address To calculate the addresses of the individual bits in the Binary Outputs use the following equation register_address 16 bit_position 10000 bit_address For example in the PRG_FLG1 register from Input Registers address space address 2 on position 7 is located FS1_gprs bit indicating GPRS logon Using that formula you can specify the address of FS1_ gprs bit in Binary Inputs address space as follows 2 16 7 39 11 3 1 Input registers binary inputs address space Input registers binary inputs address space read only access using Modbus RTU and TCP functions 2 and 4 Reserved Reserved Status flags FS1_fs first program scan FS1_new informs about loading new program FS1_stop FS1_prog program FS1_q 1 when binary outputs are not powered FS1_gsm 1 when module is logged into GSM network FS1_gprs 1 when module is logged into GPRS network FS1_usb 1 when USB cable is connected FS1_sd 1 when microSD card is installed in slot FS1_acu 1 when battery is connected 1 when program is st
67. maximum time duration of electrical signal considered as noise Data type Range Default value Comments Number 0 01 600 00 s 0 10 s Increasing the value increases noise immunity but delays change detection This parameter is available in binary input mode only 7 1 4 3 Analog inputs 4 20mA AI1 Al4 MT 151 is equipped with four current analog inputs operating in 4 20mA range All parameters but sampling frequency are set individually for each input 7 1 4 3 1 Sampling frequency Function Data type Range Default value Comments 7 1 4 3 2 Name Function Data type Range Default value Comments Defines analog input sampling frequency and measurement resolution Selection list 1Hz New measurement is available every second Measurement is slower but more precise resolution is nearly 20000 units above 14 bits This setting is advised for low dynamics signals 10Hz New measurement is available every 100 milliseconds Measurement is faster but less accurate resolution is above 2000 units 11 bits This setting is advised for low dynamics signals 1Hz N A Friendly name facilitating identification of the analog input task Text Letters and numerals max 31 characters Respectively from AT to Al4 N A 7 1 4 3 3 Engineering units Function Data type Range Default value Comments Allows user to enter unit name for information purpose Text Letters and numerals max 15 characters HA
68. n with Server Function Data type Range Default value Comments Defines in seconds delay between error in communication and next communication for current Data block Number 0 65535 s 15 s This time is measured separately for each Data block error in communication on one block does not influence communication carried out using other Data blocks 7 1 5 7 6 2 Number of read write data blocks 62 Function Data type Range Default value Comments Defines number of data blocks to define Number 0 16 0 N A 7 1 5 7 6 3 Data block read write 7 1 5 7 6 3 1 Ethernet IP Function Data type Range Default value Comments Allows to choose IP address of Modbus TCP Server device Selection list None or one of Names defined on Authorized IP list for Ethernet None N A 1 5 7 6 3 2 Address space in Server Function Data type Range Default value Comments Defines address space of Modbus TCP Slave device where from data will be polled Selection list Binary Inputs Binary inputs address 1XXX read only Binary Outputs Binary outputs address OXXX read write Input Registers Input registers address 3XXX also known as analog inputs address space read only Holding Registers Holding registers address 4XXX also known as internal registers and analog outputs address space read write Binary Inputs N A 1 5 7 6 3 3 Mapped space address Server Function Data type Range Default
69. n z Data type Range Default value Comments Defines number of SIM cards used by device There are two slot for SIM cards SIM1 upper slot and SIM2 lower slot Selection list 1 Only SIM1 slot is used by device 2 Both slots are used by device 1 N A Enables GPRS communication Selection list Yes GPRS communication is allowed No GPRS communication is disabled Yes If set to Yes allows user to configure parameters essential for setting up GPRS communication When set to No module will make no attempt to log into GPRS network If both GPRS and SMS are not used module disables all modem functionality 29 7 1 3 3 Use of SMS Function Data type Range Default value Comments 7 1 3 4 SIM1 Enables SMS communication Selection list Yes SMS communication is allowed No SMS communication is disabled Yes If set to Yes allows module to both receive and send SMS to Authorized phone numbers When set to Vo module will not send not service received SMS messages All received SMS will be deleted If both GPRS and SMS are not used module disables all modem functionality SIM1 group contains parameters responsible for establishing GSM GPRS communication using SIM card inserted into SIM1 slot upper one 7 1 3 4 1 SIM card PIN number 7 1 3 4 2 APN name 30 Function Data type Range Default value Comments Defines PIN access code for SIM module delivered by GSM operator For SIM modules
70. nager program suite has to be established Detailed information on how to install and use the MTManager program is attached in the installation CD In order to login to GSM GPRS network the basic information about the SIM card and APN have to be provided to the module In GSM group Use of GPRS Yes if using GPRS packet transmission is intended No ifthe module is not going to use GPRS packet transmission Use of SMS Yes if using SMS messaging is intended No if the module is not going to use SMS messaging In GSM SIM1 group SIM card name PIN number provide PIN code for SIM 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 Visible when Use of GPRS parameter is set to Yes APN user name provide user name if required by the operator Visible when Use of GPRS parameter is set to Yes APN password provide the password if required by the operator Visible when Use of GPRS parameter is set to Yes 21 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 and power cables insert the SIM card
71. nary inputs address space while addresses 10000 65535 point to Internal registers binary outputs address space More information on calculating bit addresses can be found in Memory map chapter in Appendices Defines the bit which state resets timer When bit is set to logical 1 timer it stopped and zeroed When bit is set to logical O timer is counting Number or Selection list 0 65535 or name from bit list see bit list in Appendices None Bit addresses O 9999 point to analog inputs binary inputs address space while addresses 10000 65535 point to Internal registers binary outputs address space More information on calculating bit addresses can be found in Memory map chapter in Appendices 7 1 4 6 2 3 Timer time unit Function Data type Range Default value Comments Defines timer time unit and therefore precision Selection list 1s 0 01s 1s N A 7 1 4 6 2 4 Counting range in timer units Function Data type 7 Range Default value Comments Defines timer counting range Number 0 2147483647 0 N A 7 1 4 7 Constant parameters Constant parameters are constant values entered in configuration which then can be used within MT 151 program This allows to parameterize universal program for application needs 7 1 4 7 1 Number of constant parameters Function Data type Range Default value Comments 7 1 4 7 2 Parameter 1 Function Data type Range Default v
72. network Subgroup Port 1 contain parameters configuring operation of RS 232 485 serial port Port 1 54 7 1 5 5 1 Operating mode Function Data type Range Default value Comments 7 1 5 5 2 Interface type Function Data type Range Default value Comments Defines operating mode of serial port Port 1 Selection list Inactive Serial port Port 1 is disabled Transparent Serial port communication is channeled to other communication port or GPRS network according to rules defined in Transparent routing table Additional configuration parameters are available in Transparent mode group Modbus RTU Slave MT 151 operates as Modbus RTU Slave on Port 1 serial port External Master device can poll for data from and write data to module Modbus RTU Master MT 151 operates as Modbus RTU Master on Port 1 serial port It can poll for data from and write data to external Slave devices connected to that port using Data blocks Also polls and writes from external devices communicating with MT 151 can be routed to Port 1 according to rules defined in Modbus routing table Additional configuration parameters are available in Modbus RTU Master mode group Inactive N A Defines electrical serial port standard used for communication Selection list RS 232 Half duplex 3 wire 12 VDC voltage interface Only one device can be connected to port in this mode RS 485 Half duplex 2 wire differential interface Many device can be connec
73. ng 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 BL 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 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 BL 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 DL 1 64 Decimal format Value presented is calculated from amount o
74. not protected by PIN code the value is insignificant Text Numerals max 8 characters N A Wrong pin can cause SIM card lock To unlock SIM card please follow procedure described in Problem solving chapter Function Data type Range Default value Comments Defines APN name which is used by module to carry out GPRS transmission using that SIM Text Letters numerals and special characters max 32 characters N A Absence of APN name disables login into GPRS network 7 1 3 4 3 APN user name Function Data type E Range Default value Comments Defines APN user name which will be used to log into APN Text Letters numerals and special characters max 32 characters N A Optional parameter used only if required by GSM network operator 7 1 3 4 4 APN password Function Data type Range Default value Comments 7 1 3 4 5 GPRS testing Function Data type Range Default value Comments 7 1 3 4 6 GPRS testing Function Data type Range Default value Comments Defines password which will be used to log into APN Text Letters numerals and special characters max 32 characters N A Optional parameter used only if required by GSM network operator interval ping Defines in minutes interval of testing GPRS connection Number 0 250 min 40 min Testing is performed by sending data frames to defined by the parameter GPRS testing address Test frame
75. o Macro name Macro text counter mttime counter of 11 D2 HR4 then macro mttime 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 GSM IR132 but expansion of macro 1 will not contain text assigned to macro name mttime therefore text being executed after macro 1 was used will look like mttime counter of 11 D2 HR4 which in turn causes module to send back SMS containing gt mtime input 0 counter 123 87 88 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 bits HB 0 16 n or groups of bits Read Write Bit mapping is as follows bits 0 15 correspond to holding register 0 bits 16 31 to holding register 1 and so on Bit access to input registers space One can access individual bits or IB 0 16 n groups of bits Read only Bit mapping is as follows bits 0 15 correspond to input register 0 bits 16 31 to input register 1 and so on Register symbols can be preceded by prefixes which can define amount of data bei
76. o freely compose text of return message and include register values together with some informational text For example if user sends containing GSM signal level is IR132 then module will answer with gt GSM signal level is 96 where 96 is a value read from input register 132 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 HR20 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 HR1 1234 causes module to write value 1234 to holding register 10 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 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 C
77. odule delivered by GSM operator For SIM modules not protected by PIN code the value is insignificant Text Numerals max 8 characters N A Wrong pin can cause SIM card lock To unlock SIM card please follow procedure described in Problem solving chapter Function Data type Range Default value Comments Defines APN name which is used by module to carry out GPRS transmission using that SIM Text Letters numerals and special characters max 32 characters N A Absence of APN name disables login into GPRS network 7 1 3 5 3 APN user name Function Data type E Range Default value Comments Defines APN user name which will be used to log into APN Text Letters numerals and special characters max 32 characters N A Optional parameter used only if required by GSM network operator 7 1 3 5 4 APN password Function Data type Range Default value Comments 7 1 3 5 5 GPRS testing Function Data type Range Default value Comments 7 1 3 5 6 GPRS testing Function Data type Range Default value Comments Defines password which will be used to log into APN Text Letters numerals and special characters max 32 characters N A Optional parameter used only if required by GSM network operator interval ping Defines in minutes interval of testing GPRS connection Number 0 250 min 40 min Testing is performed by sending data frames to define
78. odule is equipped with 16 general purpose programmable synchronous timers CT1 CT16 synchronized with module RTC Their function is counting constant user defined time intervals in range of 1 minute to 24 hours The user may appoint months days of month and days of week in which the timer is active In addition there are available 16 general purpose programmable asynchronous timers CK1 CK16 These timers start counting when module is powered or reset and are not synchronized with RTC clock 3 3 5 MT2MT buffer MT2MT buffer enables creation of system where MT modules may exchange information Holding Registers with each other without any relaying instance Data transmission from one module to other is carried out by sending from one device group of Holding Registers with data to other device which has turned on MT2MT buffer functionality and defined MT2MT buffer which includes register addresses send from sending device Data send by sender is saved to registers within buffer with same address Each time new data arrives MT2MT_x bit is set where x is position of sender IP address on receiver authorized IP list 11 3 3 6 Constant parameters In MT 151 LED module configuration user can define up to 128 constant parameters 16 bit values in range from 32768 to 32767 that may be further used for control program parameterization Values of constant parameters are nonvolatile 3 3 7 System flags MT 151 LED provides various information a
79. of Modbus routing table rules sss sees ee eee eee eee 7 1 5 8 2 Number of Transparent routing table rules 7 4 5 8 37 Modbus routing table A oia FLA A Transparent routing tablet ccc a eee LLO COMUNICACION aaa TA Le MT2Z2MT buffer or a A A das 67 TAG Ha H Active ii THT 67 7 1 6 122 Buffer address TTT 67 7 1 6 1 3 Buffer size sii A A EEEE ETE T TOTEE ET AET A lt E EE E r E E E 71 6 2 2 RECP ENE UDP PO E E R a 68 7 1 6 2 3 Number of logger data blockspin irin R E E E E E ER 68 7 1 6 2 4 Loge er data block table A EE NEEN E S ENEN 68 PARAS NR NT 69 7 1 6 3 1 Number of events mica e alii 1 6 3 2 EventtabDleu isos it dida 716 4 Dl iia AAA AAA AAA a ceed 7 1 6 4 1 Number of data blocks 7 1 6 4 2 Data block 01 iaa A A O RON TeV SU Number Of rules iii leds a irlanda 71 SA O NON 71 TAO ZA NAIM Ez Meesee geese a a havavks ieni a Ove iauin ndehy eon nate oe a 71 7 1 6 5 2 2 Triggering Udri Ata AAA 71 t H e TEAMSMISSION LY PO ii A A ie oes ea eae aaa AAA 72 TAO LA REC das ES A O 7 1 6 5 2 6 Data block AA A NAO 7 2 1 Counters Lau e eUn TT A a is a ea a 73 8 PROBLEM A reso sonansa os era er eE a a S Ee ar o E E as 74 8 1 LED SIGNALING ocooccccononnncnnnnnss 8 1 1 Binary inputs 11 116 8 1 2 Binary outputs inputs Q1 Q12 821732 GSM Status A TA EAR Ae 75 LE R alle re lT 4 eee COREE TT eR CeT er Eset TR ETE sde RE PST SES GSM OCHIVITY ii A a ii A A aa 821 63 SOTO POPES ACV A id ATAR AS AE Gece ba anda
80. of the module The password will be required for both local and remote access thus protecting against unauthorized configuration alterations Text Letters and numbers max 32 characters N A Since the only way of unlocking the module is resetting it to factory settings it is vital that the password is stored in a safe way and available when needed read disable Blocks reading of module configuration even when using valid password Selection list Yes Reading of configuration from the module is impossible No Module is not protected against reading of configuration No Comments This parameter does not influence writing a new full configuration but prevents writing changes if configuration identifier in the module and in MTManager do not match 7 1 2 5 Error display time Function S Data type Range Default value Comments 7 1 3 GSM Defines in seconds time of displaying error code on Status GSM SGN LEVEL and ERR LEDs Number 1 250 s 30 s setting of too small value makes error code identification difficult while too long value extends the time span before module attempt to fix the problem GSM group contains parameters responsible for GSM GPRS networking Proper configuration of those parameters is essential for successful GSM and GPRS communication 7 1 3 1 Number of SIM cards Function Data type Range Default value Comments 7 1 3 2 Use of GPRS Functio
81. ommand 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 HR4 123456 causes write 123456 to two registers HR4 and HR5 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 if user has defined symbolic name output and assigned it to bit 48 of internal registers space which is equal to 0 bit of HR3 register then sending a command output 1 causes module to write 1 to bit 0 of HR3 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 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 N
82. on this 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 Interface Port 11D Port 2 1D Ethemet IP Ethemet ID GPRS IP GPRS ID 1 Modbus sensor Port 1 PLC 7 Server 123 2 3 Modbus sensor from picture above is connected to Port 1 serial port and its Modbus ID is 1 It can be accessed from Ethernet by PLC it should poll MT 151 using Modbus TCP 65 protocol for ID 7 This poll will be automatically translated to Modbus RTU and send to Port 1 with ID 1 This sensor can also be accessed from GPRS by Server It should poll for ID 123 to get access to Modbus sensor 7 1 5 8 4 Transparent routing table Idx Name Interface A IP address A Interface B IP address B Index number Friendly name facilitating identification of routing rule purpose Max length is 31 characters None Routing rule is disabled Port 1 All communication from Port 1 is routed to Interface B Option visible only when Port 1 operating mode is set to Transparent Port 2 All communication from Port 2 is routed to Interface B Option visible only when Port 2 operating mode is set to Transparent Ethernet All communication from Ethernet IP given in next column is routed to Interface B GPRS All communication from GPRS IP given in next column is routed to Interface B IP address for Interface A Parameter valid only for GPRS and Ethe
83. opped 1 when error in user FS1_ gprs PRG_FLG1 FS1_acu FS1_usb FS1_new System flags FS2_rtc_sec 1Hz impulsator 1 PRG_FLG2 second z FS2_rtc_min 1 60Hz impulsator 1 minute 16 RTC_FSEC RTC fraction of second RTC_Sec RTC second 0 59 RTC_Min RTC minute 0 59 RTC_Hour RTC hour 0 23 int16 LoHi RTC_DofW ey of week 1 Sunday 7 int16 LoHi RTC_Day RTC day of month 1 31 int16 LoHi RTC_Mon RTC month 1 12 93 FS2_rtc_ sec Input registers binary inputs address space read only access using Modbus RTU and TCP functions 2 and 4 Name Description jale jejajejs e 7 s s l el Address int16 LoHi RTC_Year RTC year 2000 2099 256 cr16 crs cma cT13 cma cT11 cma cro crs cr7 cre crs cra cr3 cr2 cr GLOCK S hal L H Binary inputs S EE oon 102 pa wo N KA l a l LU lR LKA m N On N o 00 pa pS NIN BIN o E N ala O _ BB o fa o N 00 00 p o Ww o D sS nt 6 LoH MESCLON int1 6 LoH 3 int16 LoHi All Analog input Al1 measurement engineering units int16 LoHi Al2 Analog input Al2 measurement engineering units 1 S Al3 Analog input Al3 measurement 22 InELELLONI L Units N R P P e eR ojojoj OD J N N N Ww N o N LA W Ww On engineering units Alarm bits for Al1 Al4 analog inputs Alx_ABOVE measurement above 20 5mA aat Alx_BELOW measurement below 3 5m
84. orized numbers gt IP list for GPRS transmission None N A 7 1 6 2 2 Recipient UDP port Function Data type Range Default value Comments Defines UDP port to which the logger shall be sent Number 1024 65535 7110 N A 7 1 6 2 3 Number of logger data blocks Function Data type Range Default value Comments Defines the length of the Logger data block table Number 0 4 0 N A 7 1 6 2 4 Logger data block table Idx Name 68 Index number Friendly name facilitating identification of data block purpose Max length is 16 characters Address space Defines address space of data block Input Registers Input registers address 3XXX also known as analog inputs address space read only Holding Registers Holding registers address 4XXX also known as internal registers and analog outputs address space read write Data block Defines address of register from which data block begins address 0 8191 Data block size Defines number of registers which are in data block 1 28 Entries on this 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 Address space Data block address Data block size Holding Registers 7 1 6 3 Events Events subgroup contains definitions of changes of binary resources states flags inputs outputs bits which then can be used for triggering SMS and data sending
85. owing it However after sending one of hash signs will be deleted this allows to control resources of one module from another e g set binary output Q1 to 1 HB128 1 used as first character in SMS text inhibits parsing of SMS a 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 HHRO When module receives and parses the SMS message containing this command command string will be replaced with value of register O 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 gt 10 where 10 is value read from holding register 0 85 86 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 t
86. pendently for each output 4 optoisolated 4 20mA analog inputs 2 optoisolated 0 10V analog inputs Ethernet 10Base T 100Base TX port Optoisolated RS 232 485 serial port for communication with external devices Optoisolated RS 232 serial port with 5V power output dedicated for external control panels Diagnostic LEDs Backup power battery connector build in battery charger PLC functionality Standard industrial transmission protocols Modbus RTU Modbus TCP Transparent support and routing e 3 year warranty 2 GSM requirements For proper operation the module needs a SIM card supplied by a GSM operator providing GPRS and or SMS services It is advised to use GPRS enabled SIM card with static IP addressing The unique IP address of the SIM card is an identification for the module within the APN This enables module to module and server to module communication within the APN structure If SIM cards with dynamic addressing are used then only module to server communication is possible A good and strong GSM signal in the place where the module s antenna is located is imperative for the proper function of the module Using the module in places where the signal is weak may lead to interruptions in transmission and possible loss of transmitted data along with increased costs generated by transmission retries 3 Module design 3 1 Topography Optoisolated analog Optoisolated binary ivi inputs 4 20mA with inputs that operate in a pas e pro
87. ptoisolated RS 232 485 serial communication port Port connector is located on terminal block as pictured below Al 1 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC12 24 eo arn T 18 18 Pp caes receiver input For operation in RS 232 mode cable length should not exceed 15m Port 2 RS 232 serial communication port with 5V 500mA power output No optoisolation Port connector RJ 12 is located on the front panel A Pin Description 5V 500mA power output 2 GND Signal ground level Receiver input Handshake output Ready To Send Handshake input Clear To Send Transceiver output Ethernet port optoisolated 10Base T 100Base TX communication port Port connector RJ 45 is located on the front panel 18 Pi w n Description Not connected 4 6 GSM antenna Connecting the antenna is necessary for reliable data transmission from MT 151 LED module SMA female type antenna socket is placed on module front panel S ibid Jejejujisje r jef 19 MO 111 192 193 194 15 16 8 Proper antenna placement is important during the module installation In case of low GSM signal level all SGN LEVEL LED indicators are turned off using the directional antenna with high gain may be necessary 19 4 7 SIM card installation MT 151 LED module is equipped with two SIM card slots allowing to install two miniature not micro SIM cards For GPRS transmission it is advised to use static IP addressed S
88. put task Text Letters and numerals max 31 characters Respectively from J1 to 116 N A Defines binary input operating mode Selection list 41 Range Default value Comments 7 1 4 1 3 Filtering Function Data type Range Default value Comments Binary input Selected terminal operates as binary input Binary input N A Defines in seconds minimum duration of electrical state on the input to be considered stable thereby defining maximum time duration of electrical signal considered as noise Number 0 01 600 00 s 0 10 s Increasing the value increases noise immunity but delays change detection This parameter is available in binary input mode only 7 1 4 2 Binary outputs Q1 Q12 All parameters listed in this group are set individually for each binary output 7 1 4 2 1 Name Function Data type Range Default value Comments 7 1 4 2 2 Input type Function Data type Range Default value Comments 7 1 4 2 3 Filtering Function 42 Friendly name facilitating identification of the binary output task Text Letters and numerals max 31 characters Respectively from Q1 to Q12 N A Defines binary output operating mode Selection list Binary input Selected terminal operates as binary input Binary output Selected terminal operates as binary output Binary output N A Defines in seconds minimum duration of electrical state on the input to be considered stable thereby defining
89. r reference parameters for rescaling input signal to engineering units engineering units Defines HiHi alarm level for analog signal value in engineering units Number 32768 32767 32767 If value of analog signal is higher than value of this parameter then the HiHi alarm flag is risen The resetting level of this flag depends on Alarm hysteresis engineering units setting 7 1 4 4 8 Hi alarm engineering units Function Data type Defines Hi alarm level for analog signal value in engineering units Number 47 Range Default value Comments 32768 32767 32767 If value of analog signal is higher than value of this parameter then the Hi alarm flag is risen The resetting level of this flag depends on Alarm hysteresis engineering units setting 7 1 4 4 9 Lo alarm engineering units Function Data type Range Default value Comments Defines Lo alarm level for analog signal value in engineering units Number 32768 32767 32768 If value of analog signal is lower than value of this parameter then the Lo alarm flag is risen The resetting level of this flag depends on Alarm hysteresis engineering units setting 7 1 4 4 10 LoLo alarm engineering units Function Data type Range Default value Comments Defines LoLo alarm level for analog signal value in engineering units Number 32768 32767 32768 If value of analog signal is lower than value of th
90. ram counter threshold value 10176 int16 LoHi PV_C7 C7 program counter threshold value 10192 int16 LoHi PV_C8 C8 program counter threshold value 10208 int16 LoHi Pv_T1 T1 program timer threshold value 10224 int16 LoHi PV_T2 T2 program timer threshold value 640 10240 int16 LoHi PV_T3 T3 program timer threshold value 10256 int16 LoHi PV_T4 T4 program timer threshold value 10272 int16 LoHi PV_T5 T5 program timer threshold value 45 PV_C2 C2 program counter threshold value 10288 int16 LoHi PV_T6 T6 program timer threshold value 10304 int16 LoHi PV_T7 T7 program timer threshold value PV_T8 T8 program timer threshold value 10320 int16 LoHi 646 10336 int16 LoHi REG_C1 C1 program counter current value 102 Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 address e ame Description rres ee as as as aa us s 7 s s o reap 19388 ty Re pram court curent vale 1024 16384 int16 LoHi HR1024 meee purpose 16 bit register zergea 8191 131056 int16 LoHi HR8191 nase purpose 16 bit register zeroed 103
91. rnet interfaces None Routing rule is disabled Port 1 All communication from Port 1 is routed to Interface A Option visible only when Port 1 operating mode is set to Transparent Port 2 All communication from Port 2 is routed to Interface A Option visible only when Port 2 operating mode is set to Transparent Ethernet All communication from Ethernet IP given in next column is routed to Interface A GPRS All communication from GPRS IP given in next column is routed to Interface A IP address for Interface B Parameter valid only for GPRS and Ethernet interfaces Entries on this 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 66 Idx Interface A IP address A Interface B IP address B GPRS 7 1 6 Communication Communication group contains parameters managing SMS and spontaneous data transmission Here you can configure when transmission will be triggered what data or message it will send and where it shall be send 7 1 6 1 MT2MT buffer MT2MT buffer enables creation of system where MT modules may exchange information Holding Registers with each other without any relaying instance Data transmission from one module to other is carried out by sending from one device group of Holding Registers with data to other device which has turned on MT2MT buffer functionality and defined MT2MT buffer which include
92. s General group contains basic configuration and configuration protection parameters 7 1 2 1 Device identifier Function E Data type Selects device identifier used which is added to data frames sent by device and then to identify sender by server software e g MTDataProvider Selection list 27 Range Default value Comments 7 1 2 2 Module IP 7 1 2 3 Configuration 7 1 2 4 Configuration 28 Function Data type Range Default value Comments Function Data type Range Default value Comments Function Data type Range Default value IP address IP address assigned to device by GSM provider is used as identifier Advantage of this solution is possibility of changing device on site to other of same type without need to reconfigure server SIM card used with device should have static IP address Serial number Serial number of device is used as identifier Advantage of this solution is possibility of operation in APN with dynamic IP addressing IP address N A Displays IP address assigned to module by GSM provider during last communication with module It is used for remote configuration via GPRS 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 remote communication with the module is impossible IP address can be inserted manually to allow access to remote module via GPRS password Defines the password protecting access to configuration
93. s Xlower then Y is X greater equal then Y OR Ii Qi P1 AND Pi NOT 12 Q1 AN r N 2 Q is Xlower equal then Y is Xequalto Y n Message O New module MT 151 MTManager sample program in text mode 12 B MTM MT ML Manager 7 General View Transmission Programmer Help 00004 SOSS x 22 Tree List Find Favorites Text mode MTprog mode g B D New project a l Toolbox Variables FA E New module MT 151 ON OFF Q1 using two momentary inputs 11 ON and 12 OFF E al S Vertical line 3 a 7 L X Horizontal line a 4 Normally open contact ag Normally closed contact D 9 r 4tr Rising level connector 1 lan m y U X amp Type message Message Bau a 4 la m a rile Total number of rungs 1 Column 5 Row 10 O New module MT 151 m T U MTManager sample program in ladder mode B MTM MT ML Manager General View Transmission Programmer Help HMHN a 0 00 x X Toolbox Tree List Find Favorites Text mode Ladder mode MTprog mode BAH New project Bei moco 001150 No Label If Function always boolean OR X Y always boolean AND X Y o DADO
94. s are sent when the module is logged into APN and no communication is performed during the defined by this parameter period If the test fails that is the module does not receive confirmation within 12 seconds and after 3 retries the connection to the APN is reset address ping Defines IP address used for sending GPRS transmission test frames 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 test frames are sent to IP chosen by module from Authorized IP list It is advised to set this parameter to IP address of device collecting data or other IP address always connected to APN 31 7 1 3 4 7 Roaming Function Data type Range Default value Comments 7 1 3 5 SIM2 Defines whether operation in foreign GSM network is allowed Selection list On In case of absence of home network the module will attempt to login to other available network Off Login into foreign networks is not allowed Off This parameter decides whether module will try to login to available foreign networks in the absence of home network This is possible only when the SIM card in module has roaming service enabled SIM2 group contains parameters responsible for establishing GSM GPRS communication using SIM card inserted into SIM2 slot lower one 7 1 3 5 1 SIM card PIN number 7 1 3 5 2 APN name 32 Function Data type Range Default value Comments Defines PIN access code for SIM m
95. s register addresses send from sending device Data send by sender is saved to registers within buffer with same address Each time new data arrives MT2MT_x bit is set where x is position of sender IP address on receiver authorized IP list 7 1 6 1 1 Active Function Data type Range Default value Comments 7 1 6 1 2 Buffer address Function Data type Range Default value Comments Enables receiving GPRS frames to MT2MT buffer Selection list No MT2MT buffer functionality is disabled Yes MT2MT buffer functionality is enabled No When set to Vo module cannot receive GPRS frames to buffer however it still can send data to other buffers GPRS is required for MT2MT communication Defines address of register from Holding Registers address space where buffer begins Number 0 8191 116 Received data which does not fit within defined buffer is not saved in module 67 7 1 6 1 3 Buffer size Function Data type Range Default value Comments 7 1 6 2 Logger Defines number of registers from Holding Registers from which MT2MT buffer consist Number 1 700 16 Received data which does not fit within defined buffer is not saved in module Events subgroup contains parameters controlling logger functionality 7 1 6 2 1 Recipient Function Data type Range Default value Comments Defines IP address which shall receive logger data frames Selection list None and addresses defined in GSM gt Auth
96. s that control program is stopped It is also lit for few seconds after writing new firmware or configuration to module indicating that module should not be powered off e ACCU LED when lit battery charger is operating e PWR LED is lit all the time the module is powered from mains power supply Indicators of Module status group are the main sources of visual information about correct operation of the module 78 8 2 Error signaling Despite the efforts of module designers and users errors in function do occur It is often imperative to diagnose and remove the cause of error Error signaling is a tool for solving problems Following LED indicators on module front panel display error code e ERR e GPRS e Li L2 L3 of SGN LEVEL group 000099909090999 Ho 2 i2 Bel ej i 111 12 13 14 15 6 17 18 79 8 2 1 Standard errors A sign of Standard error occurrence is lit ERR LED Error code numbers are displayed on signal level and GPRS LEDs Modemerror error GSM network error check antenna connection and SIM card activation in GSM network GPRS network error check SIM card activation in GPRS network eet ee GPRS network of ee oft 5 Errorduring GPRS login L SIM card error locked or missing SIM card error locked or missing Wrong PIN for SIM card LED flashing 0 5Hz LED off When GPRS LED is off the module will automatically try to reinitiate transmi
97. ses for one program cycle This bit can be used for tracking analog input value 3 2 4 Analog inputs 0 10V MT 151 LED telemetry module is equipped with 2 analog inputs operating in 0 10V range and marked as AV1 and AV2 Analog inputs measurement can be scaled in engineering units e g in meters or percents For each analog input user can define 4 alarm levels 2 high and 2 low with hysteresis It is also possible to define deadband parameter each time measured value changes by value higher than defined by this parameter deadband bit assigned to this analog inputs rises for one program cycle This bit can be used for tracking analog input value 3 2 5 Serial ports MT 151 LED telemetry module is equipped with 2 serial ports e PORT 1 optoisolated RS 232 485 port designed for communication with external devices Interface type and operating parameters are configurable using MTManager program suite delivered for free with module s PORT 2 RS 232 port with 5V power output dedicated for communication with control panels and other devices 3 2 6 Ethernet port MT 151 LED telemetry module is equipped with Ethernet 10Base T 100Base TX port used for communication with external devices 3 2 7 USB port MT 151 LED telemetry module is equipped with USB B port which is used for device configuration MTManager is required Port is visible in system driver only for Windows as COM port Device communicates at 115200 bps with 8 data bits
98. sparent routing table 7 1 5 5 6 2 Data frame delimiter 56 Function Data type Range Default value Comments Defines in seconds minimum interval between receiving data packets Number 0 00 655 35 s 1 00 s If no new data arrives to receiving buffer within declared time data already saved in that buffer is sent according to rules defined in Transparent routing table 7 1 5 5 7 Modbus RTU Master mode In this mode MT 151 can poll for data from and write data to external Slave devices connected to that port using Data blocks Also polls and writes from external devices communicating with MT 151 can be routed to Port 1 according to rules defined in Modbus routing table This group provides additional configuration parameters for this mode 7 1 5 5 7 1 Delay after error in communication with Slave Function Defines in seconds delay between error in communication and next communication for current Data block Data type Number Range 0 65535 s Default value 15 s Comments This time is measured separately for each Data block error in communication on one block does not influence communication carried out using other Data blocks 7 1 5 5 7 2 Number of read write data blocks Function Defines number of data blocks to define Data type Number Range 0 16 Default value O Comments N A 7 1 5 5 7 3 Data blocks read write Data blocks defined in this group allow to read from and write
99. ssion When GPRS LED is flashing user intervention is required Remove the reason for error and reconnect power 8 3 Unlocking the SIM card 80 Triple insertion of wrong PIN code results in locking the SIM card Locked card renders SMS and data transmission impossible Locked SIM card is signaled by ERR LED In order to unlock the SIM card do the following e Power off the module e Remove the SIM card from device e Insert the SIM card to a 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 e Power the module off e Install the SIM card in the module e Power the module on Executing the procedure unlocks the SIM card and enables modules proper operation 9 Technical parameters 9 1 General Dimensions height x width x depth 157mm x 86mm x 58mm 4509 Mounting method 35mm DIN rail Operating temperature 20 C 65 C Ingress protection class 1P40 Cid Humidity up to 95 non condensing 9 2 GSM GPRS modem GSM band QuadBand GSM 850 EGSM 900 DCS 1800 PCS 1900 Transmitter peak power GSM 850 EGSM 33 dBm 2W station of class 4 900 Transmitter peak power DCS 1800 PCS 30 dBm 1W station of class 1 1900 MHz 9 3 Power supply Direct current DC 12VDC 24VDC 10 8 36V Direct current DC required for battery 18 36V charger 24VDC Idle 0 12A Input current for 12VDC Active 0
100. sstebstessvedcceedetacdesessuessseedevsecetesbateccseouseadsseedesece 8 IN NN EI A 8 352 HARDWARE RESOURCES sc a atea 8 EE D Tete la LET Te tdi AA AAA A AA AAA AAA ASA 9 32 Ze BINGIY QUEPUES A A aaa 9 3 2 3 ANGIOG inputs 4 20MA cniinn indiai didia ad a i deia ea aae aa iia dhie ad daian ieaiaia aina aa Peida 9 32 42 ANGIOG INPUtS O OV aaa raa aa aa Aaa ahea PALAA E RE EAEra ENAA SLAE A AE T Dea AEEA ER backed 9 B26 De SOLIDI DOMES ETT 9 ALOE CEDE A A hada cau da sMee daca aed Gov A TT 9 3 2 TS MISB LA NA RNA 10 3 2 83 MICFOSD COE TOG TT 10 3229 REG elle 2225 63 its a eeta A T ead nds sd ea Fe ad eG Tea 10 3 3 INTERNAL RESOURCES cities EA id iii 10 K H Re Tee A NN NANO 10 S RN THH 11 S esl 11 A O A A A NN 11 33 S MTM T DU aa a eg esta a bs a da bs seceded ba aa ds A id is 11 3 30 Constant PAlOMETCIS ninsoare ikiia diea aie aai deia aiiai diddan iain iai avatara aa cacnaded dagsedad casdhva dvtvds deai 12 EE Eal e TAI A E E 12 3 3 8 Control program sss sees eee eee 12 SH s TTT 13 E SLOTS THT TTT 14 3 07 ANTENNA ca a ada 14 S eu SUP A A A A ro 14 307 ENCLOSURE asin EE AN eE SALE Ne a E Are a e dia 15 4 CONNECTION DIAGRAMS AS cttecoscesuscusseeeeverssvecesssceacoseesasvareadecessesveeess 15 ALT BINARY INPUTS 5 sccosdsesesifss ick cegacuhcatstacdees sds sdavanesacensuag A E raid 15 4 2 BINARY OUTPUT So A oa 16 423 ANALOG INPUTS 4 2OMA voor aa 16 AA ANALOG INPUTS OLOV a e iii 17 4 53 COMMUNICATION POR TS a iaa 18 4 6 GSM ANTE
101. ted to port in this mode RS 232 N A 7 1 5 5 3 Transmission speed Function Data type Range Default value Comments Defines transmission speed in bits per second Selection list 1200 2400 4800 9600 19200 38400 57600 115200 bps 9600 bps N A 55 7 1 5 5 4 Stop bits Function Data type Range Default value Comments 7 1 5 5 5 Parity Function Data type Range Default value Comments Defines number of stop bits used during communication Selection list t2 1 When one of Modbus operating modes is selected this parameter value does not influence communication number of stop bits is automatically chosen according to Parity setting Defines parity control of transmitted byte Selection list None Even Odd None When one of Modbus operating modes is selected this parameter overrides Stop bits parameter setting as follows None 1 stop bit Even or Odd 2 stop bits 7 1 5 5 6 Transparent mode In this mode communication on serial port Port 1 is channeled to other communication port or GPRS network according to rules defined in Transparent routing table This group lists additional communication parameters for this mode 7 1 5 5 6 1 Max data packet size Function Data type Range Default value Comments Defines maximum size of data packet in bytes Number 1 1408 256 If number of data bytes in receiving buffer reaches declared value data packet is sent according to rules defined in Tran
102. th The list of IP addresses serves to granting access to configuration and data reception privileges Numbers and addresses saved in this group are then used as receivers in Rules 39 7 1 3 8 1 Number of phone numbers Function Data type Range Default value Comments Defines the length of phone numbers list authorized to exchange SMS messages Number 0 32 0 The value of this parameter may vary as the result of adding deleting when using the context menu operating directly on Phone list 7 1 3 8 2 Number of IP addresses Function Data type Range Default value Comments 7 1 3 8 3 Phone Idx Name Number Receiving Defines the length of the IP addresses list Number 0 32 0 The value of this parameter may vary as the result of adding deleting when using the context menu operating directly on IP list Index number Friendly name facilitating identification of the receiver while defining Rules Max length is 16 characters Phone number assigned to list index Max 23 characters The module receives and analyzes SMS messages depending on selected setting When receiving is not allowed all SMS messages will be deleted 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 Number Receiving 7 1 3 8 4 IP Idx Name 40 Index number
103. timer Defines days of week when timer is active Multiple choice field Mo Tu We Th Fr St Sn Mo Tu We Th Fr St Sn all week days are selected Timer is active when date and time of module RTC matching following equation X OR Y AND Z 1 where X 1 when current RTC day of week is selected on Days of week parameter if it is not then X 0 Y 1 when current RTC day of month is selected on Days of month parameter if it is not then Y 0 Z 1 when current RTC month is selected on Months parameter if it is not then Z 0 E g if selected day of week is Friday day of month is 13 and all months are selected timer will operate on all Fridays and on 13th day of each month Defines days of month when timer is active Multiple choice field lt i Last No day selected no month day is selected Timer is active when date and time of module RTC matching following equation X OR Y AND Z 1 where X 1 when current RTC day of week is selected on Days of week parameter if it is not then X 0 Y 1 when current RTC day of month is selected on Days of month parameter if it is not then Y 0 Z 1 when current RTC month is selected on Months parameter if itis not then Z 0 E g if selected day of week is Friday day of month is 13 and all months are selected timer will operate on all Fridays and on 13th day of each month Defines months when timer is active Multiple choice field Jan Feb Mar Apr May
104. ting in that Modbus RTU command to ID which is matching ID for Port 1 it will respond to that command allowing user to get data from device 6 1 2 Modbus RTU Master mode In this mode MT 151 can poll for data from and write data to external Slave devices connected to that port using Data blocks Each Data block defines number of addresses in Slave device and matching registers in Holding Registers address space in module Module polls for data with given interval and saves it in module If new data is saved to those registers by SMS GPRS transmission control program or any other method but from Port 1 this new data will be written to Slave device In this mode MT 151 is using Modbus RTU functions 1 2 3 and 4 for polls and 5 6 for writes For each data block there is SLx_ok bit where x is following number of data block which informs about proper communication within this data block Also polls and writes from external devices communicating with MT 151 can be routed to Port 1 according to rules defined in Modbus routing table All those commands are automatically translated to Modbus RTU protocol 6 2 Modbus RTU Slave mode In this mode MT 151 module acts on this port as Modbus RTU Slave device and awaits for incoming Modus RTU commands It will react on command that are send to ID matching ID of MT 151 for that port Incoming Modbus RTU commands can be routed to other ports or GPRS according to routing rules defined in Modbus routing t
105. ting incoming data according to routing tables Enables configuration of IP address of module used on Ethernet IP address 0 0 0 0 255 255 255 255 0 0 0 0 N A Allows to enter IP mask defining subnet used by module IP mask 0 0 0 0 255 255 255 255 0 0 0 0 N A 7 1 5 7 4 Default gateway Function S Data type Range Default value Comments Enables configuration of IP address of default Ethernet gateway IP address 0 0 0 0 255 255 255 255 0 0 0 0 N A 61 7 1 5 7 5 Authorized IP addresses Authorized numbers comprises lists of Ethernet IP addresses the module can communicate with 7 1 5 7 5 1 Number of IP addresses Function Data type Range Default value Comments 7 1 5 7 5 2 IP Idx Name IP address Protocol Defines the length of the IP addresses list allowed to communicate with device via Ethernet Number 0 16 0 N A Index number Friendly name facilitating identification of device Max length is 16 characters IP address assigned to Ethernet Device TCP Communication is carried out using TCP protocol 7 1 5 7 6 Modbus TCP Client In this group MT 151 can poll for data from and write data to external Modbus TCP Slave devices connected to Ethernet port using Data blocks Also polls and writes from external devices communicating with MT 151 can be routed to Ethernet according to rules defined in Modbus routing table 7 1 5 7 6 1 Delay after error in communicatio
106. wn as internal registers and analog outputs address space read write Register bit Address of bit or register to which symbolic name is assigned address 0 65535 Default value is O 7 1 3 7 8 Macros Macros group contains up to 16 user 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 to module or in SMS text sent from module or other macro Using macros makes composing complex SMS texts and queries much more convenient and user friendly More about SMS messaging can be found in SMS commands syntax chapter in Appendices 7 1 3 7 8 1 Number of macros Function Defines number of user defined macros Data type Number Range 1 16 Default value 1 Comments N A 7 1 3 7 8 2 Macro table Idx Index number Macro name Friendly name facilitating identification of macro Letters numerals and special characters max 20 characters Default value is MO Macro content Text to which macro is decoded May use other macros with lower index symbolic names and SMS commands as described in SMS commands syntax chapter in Appendices Letters numerals special characters max 160 characters Default value is date time 7 1 3 8 Authorized numbers Authorized numbers comprises lists of phone numbers and IP addresses the module can communicate wi

MT-151 LED

Contents

Download Pdf Manuals

Related Search

Related Contents