MT-151_HMI-user-manual
Contents
1. 94 SL 1 Us of SNMP ERRORES D e ERR dies 94 8 1 6 6 2 A O 94 8 1 6 6 3 Community string read write esses eene nnne nennen nnne nnne enne inier 95 8 1 6 6 4 Trap handling ences ene ror e benedi iia 95 8 1 6 6 5 Requesthandling tii dien nei fas 95 8 1 6 6 6 Traps 5 icono eter eb pene rib teet te e t abo ee at equ edet Te T as 95 8 1 6 6 6 1 Number of trap receivers M Ea m sum 05 8 1 6 6 6 2 Number of traps iso ttr easi toos eain is atta ec eit didit 95 8 1 6 6 6 3 Trap data SOUFCe e e eee Par ire ENSE AERE E AURA Ea de THEE KE RC e RE RW ERR ER TUR Kegel 96 8 1 6 6 6 4 Trap receivers Em be n 8 1 6 6 6 5 Trap tables i aeneus n ien OPER E UPON In ERN 8 1 6 6 7 Requests ie pee d eR RN RUE PARAR EUREN Re SRI ER IRR QE EE E 8 1 6 6 7 1 N mber of request receivers nie ad 8 1 6 6 7 2 REQUEST count ie eR Re UR de e eet MUR iners 8 1 6 6 7 3 Request r celVers ient AAA EU Ra RES Ra ERE ue RS KS ERU ana 8 1 6 6 7 4 Request table ire tiene ct Hebe RE Ui iii 8 1 6 6 7 4 1 Triggering DIE rtr n emer es E IR Em nd e e i tete 8 1 6 6 7 4 2 Triggering slope iius REDE EIC M HUNE UM 8 1 6 6 7 4 3 Receiver address amis ipiacieuiue tenue ae ap digo e ar d das dl SEGA N O Dc e bei tese dete mao baie bei bid eO RR ROMS aides 8 1 6 6 7 4 5 Destination register address ds s se 8 1 6 6 7 4 6 Read flag eum A HTeIii 8 1 6 6 7 4 7 Error flag eden de2. 8 1 4 1 1 Name 8 1 4 1 2 Input type ae m He SIA ES ltda dll dls detal ls lol ds cl ts ed oie BLA LAO calculation A eat 8 1 4 1 5 Flow scaling 8 1 4 1 6 Impulse weight multiplier 8 1417 Impulse weight divider RR A A its 8 1 4 1 8 Offset engineering nits i ee RH D EE HEU EP e E e EHE 8 1 4 1 9 Hi al rm engirieering Unite eR Er E e e te eigens 51 8 1 4 1 10 Lo dlarm engineering uriits A e e RO ee ARE ROLE EE RAS 51 8 1 4 1 11 Alarm hysteresis engineering units eene enne enne nnne nnne nnne nnne 51 8 14 2 Binary o tputs Q1 12 e do eo ed e esr CB ESRB EII MD 8 1 4 2 2 Input type iion i site P USE AEE ias da E deb iab aee oe dana ee n a CORBIS pda 8 1 4 2 3 Filtering 3 Ee e b RH e e ble pied aba der egi ets 8 1 4 3 Analog inputs 4 20MA AI1 Al n eirinn e aara e EAB AS S NN UENEN ADe r ias Ear N aeS 8 1 4 3 1 eaa Teana IA iaa A Emi 8 1 4 3 2 NaMe it A AAA AAA 8 1 4 3 3 Engineering units eS 8 1 4 3 4 Low reference internal units 8 1 4 3 5 Low reference engineering units 8 1 4 3 6 High reference internal units 8 1 4 3 7 High reference engineering units 8 1 4 3 8 HiHi alarm engineering units enne E nnne nennen nnns 8 1 4 3 9 Hi alarmi engineering Uns HR UE EE ERE eee e REVENUE 8 1 4 3 10 Lo alarm erigineering Units Ee E E ee named 8 1 4 3 11 Loko larm engineering units oot t ce i FO YI RES C EO es ec E pa dt 8 1 4 3 12 A
3. Data type Number Range gia LG Default value 0 Comments N A 8 1 6 6 7 2 Request count Function Defines number of request visible to define in Request table Data type Number Range Pes DA Default value 0 Comments N A 8 1 6 6 7 3 Request receivers 98 Idx Index number Name Friendly name facilitating identification of IP receivers in SNMP Request definitions Max length is 20 characters Address IP IP number 8 1 6 6 7 4 Request table 8 1 6 6 7 4 1 Triggering Function Data type Range Default value Comments 8 1 6 6 7 4 2 Triggering Function Data type Range Default value Comments bit Defines marker or bit which triggers transmission request Selection list None or bit number O 65535 or name from bit list Declaring bit from Binary input space require add prefix 10xxx to address value of the digital bit e g flag P1 address is 1600 dec means triggering bit 11600 address None N A slope Defines edge of incrementing bit triggering transmission of the request Selection list 0 gt 1 logical state change from O to 1 1 gt 0 logical state change from 1 to O 0 lt gt 1 both direction changes 0 gt 1 N A 8 1 6 6 7 4 3 Receiver address Function Data type Range Default value Comments 8 1 6 6 7 4 4 OID Function Data type Range Default value Comments Allows recipient selection from list of Requ
4. User screens up to 8 optional screens displayed during normal work by module Screen consists with 4 to 6 lines of text depending whether user configured screen to present digital inputs and digital outputs inputs state It is possible to have one value per line that can be changed using keyboard located left of screen To do so user needs to push OK button First editable value is now highlighted and user can switch between available editable variables using arrow keys Pressing OK chooses variable for editing highlight starts blinking Then user can choose value from available range by pressing OK Pressing ESC at any step exits data entry mode Flowlnti 84 OMOO 0008 OOOO OOOO FlowCntz 243 Ali raw amp 8 FlowEnai 25 3 FH Ali ena 466 FlouEna2 23 2 st C AIl flags 60600010 119734995 736944716 czas 67 00 16 0000 000 oooo c We e Chart screens up to 4 optional screens with charts presenting data change over time Each chart allows presenting up to 90 samples Each chart is using 100 registers from holding registers address space for data acquisition Charts are using registers W1 7000 7099 W2 7100 7199 W3 7200 7299 W4 7300 7399 22 4 25 5 THF EH x 22 3 20 7 D Time h tz 9 Time h t Registers are either filled automatically parameter Data acquisition is set to Automatic or by user parameter Data acquisition is set to User manually by external device or by user program Length of
5. 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 SMS messages sending counter 43 8 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 8 1 3 7 5 Answer for blank SMS 8 1 3 7 6 Formats 8 1 3 7 6 1 Date format 44 Function Data type Range Default value Comments 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 commands syntax chapter Formats subgroup contains parameters allowing user to define formats of date and time presented in SMS messages 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 pla
6. Name of bit I1 116 Binary inputs I1 I16 AIi LoLo AI4 LoLo Analog inputs 4 20mA alarm bits LoLo alarm Measured value lower than LoLo alarm threshold All Lo AI4 Lo Analog inputs 4 20mA alarm bits Lo alarm Measured value lower than Lo alarm threshold Analog inputs 4 20mA alarm bits Hi alarm Measured value ALL Mi At higher than Hi alarm threshold T 44 Analog inputs 4 20mA alarm bits HiHi alarm Measured AL HiHi Ale HIMI value higher than HiHi alarm threshold AV1 LoLo AV2 LoLo Analog inputs 0 10V alarm bits LoLo alarm Measured value lower than LoLo alarm threshold AVI Lo AV2 Lo Analog inputs 0 10V alarm bits Lo alarm Measured value lower than Lo alarm threshold Analog inputs 0 10V alarm bits Hi alarm Measured value PL HI SML higher than Hi alarm threshold us uy Analog inputs 0 10V alarm bits HiHi alarm Measured value AVI HiHi AV2 HiHi higher than HiHi alarm threshold AI1 ABOVE Analog inputs 4 20mA alarm bits out of measurement AI4 ABOVE range Measured value lower than 3 5ma AI1 BELOW Analog inputs 4 20mA alarm bits out of measurement AI4 BELOW range Measured value higher than 20 5mA AV1 ABOVE Analog inputs 0 10V alarm bits out of measurement range AV2 ABOVE Measured value lower than OV AV1 BELOW Analog inputs 0 10V alarm bits out of measurement range AV2 BELOW Measured value higher than 10V P1 P256 General purpose program flags P1 P256 More information about avai
7. 210 00 Tree List Find Favortes Text mode Ladder mode MTprog mode 3 11 New project a Toolbox Variables E New module MT 151 ON OFF Q1 using two momentary inputs 11 ON and D OFF zu General Pointer qi Vertical line y Horizontal line 4 Normally open contact Ar Normally closed contact t Rising level connector Lu Colina lmsaloannanios xi J aA Total number of rungs 1 Column 5 Row 10 New module MT 151 t 4 16 Bl MTM MT ML Manager General View Transmission Programmer Help 06099 G3 5 BS F 00xX Tee un red Favotes Text mode Ladder mode MTorog mode No label W ES N odule MT 151 0 B of a a EE 73 E E EJ EJ lU 4101010121319 13131310 E lo New module MT 151 4 4 SIM cards slots MT 151 HMI module is equipped with two SIM card slots that allow installing two miniature SIM cards not micro 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 supports a low voltage 3 3V SIM cards 4 5 Antenna Connecting of the antenna is necessary for reliable data transmission from MT 151 HMI module SMA female type antenna socket is placed on module front panel Proper antenna placement is important during the module installation In case of low GSM signal level usin
8. 8 1 8 1 4 6 1 3 Days of week 60 Function Data type Range Default value Comments 4 6 1 2 Period Function Data type Range Default value Comments Function Data type Range Default value Comments 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 to high state Defines time period counted by timer Selection list 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 timer Defines days of week when timer is active Multiple choice field Mo Tu We Th Fr St Su Mo Tu We Th Fr St Su 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 O 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 8 1 4 6 1 4 Days of month Function Data type Range Default value Comments 8 1 4 6 1 5 Months Functi
9. Default value Comments Defines in seconds maximum waiting answer time of SLAVE device Number 1 30 1 N A 75 8 1 5 5 6 4 Data blocks read write 76 Data blocks defined in this group allow reading from and writing 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 1 5 5 6 4 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 1 5 5 6 4 2 Address space in Slave Function Defines address space of Slave device where from data will be polled Data type Selection list Range Binary Inputs Default value Comments 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
10. FS1 prog 1 when error in user program FS1 q 1 when binary outputs are not powered PRG FLG1 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 128 Input registers binary inputs address space read only access using Modbus RTU and TCP functions 2 and 4 Name Description System flags FS2 rtc sec 1Hz impulsator 1 second FS2 rtc min 1 60Hz impulsator 1 minute SD write writing on SD card in progress now NO SIM no SIM card detected PUK REQ PUK code required PIN WRONG wrong PIN code PIN ATTE Two attempts made PIN OK Pin code correct ROAMING module in roaming SIM USE which card is used O SIM1 1 SIM2 64 16 RTC FSEC RTC fraction of second int16 LoHi RTC Sec RTC second 0 59 int16 LoHi RTC Min RTC minute 0 59 PRG FLG2 SIM USE ROAMING PIN ATTE PIN WRONG FS2 rtc min FS2 rtc sec 112 int16 LoHi RTC_Hour RTC hour 0 23 RTC DofW RTC day of week 1 EJ dcs dh RE 7 Saturday 160 int16 LoHi RTC Mon RTC month 1 12 192 int32 LoHi RTC Timestamp 14 224 Time in seconds since int32 LoHi ON TMR 129 int16 LoHi RTC Day RTC day of month 1 31 int16 LoHi RTC Year RTC year 2000 2099 112 128 144 160 176 192 208 224 40 Input registers binary inputs address space read only acc
11. Friendly name facilitating identification of routing rule purpose Max length is 31 characters None Routing rule is disabled Port 1 Modbus RTU Slave device is connected to Port 1 Option available only when Port 1 operates in Modbus RTU Master mode Port 2 Modbus RTU Slave device is connected to Port 2 Option available only when Port 2 operates in Modbus RTU Master mode 85 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 Portl ID ID of Modbus RTU Slave device as seen from Port 1 1 255 Port2 ID ID of Modbus RTU Slave device as seen from Port 2 1 255 Ethernet I P IP 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 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 ID Ethemet IP Ethemet ID GPRSIP GPRSID Modbus sensor Port 1 PLC 7 Server 123 Modbus sensor from picture above is connected to Port 1 serial
12. This is possible only when the SIM card in module has the roaming service enabled SIM2 group contains parameters responsible for establishing the GSM GPRS communication by using SIM card inserted into SIM2 slot the lower one 8 1 3 5 1 Address IP Function Displays IP address assigned to SIM card placed in SIM holder slot number 2 using if the communication with module has been established earlier on that slot It can be used for remote configuration via GPRS 39 Data type IP address Range 0 0 0 0 255 255 255 255 Default value 0 0 0 0 Comments When this field is left at default value 0 0 0 0 remote communication with the module is possible using other IP addresses Obviously IP address can be inserted manually to allow access to remote module via that SIM card if is logged 8 1 3 5 2 SIM card PIN number Function Defines PIN access code for SIM module delivered by GSM operator For SIM modules not protected by PIN code the value is insignificant Data type Text Range Numerals max 8 characters Default value N A Comments Wrong PIN can cause SIM card lock To unlock SIM card please follow procedure described in Problem solving chapter 8 1 3 5 3 APN name Function Defines APN name which is used by module to carry out GPRS transmission using that SIM card Data type Text Range Letters numerals and special characters max 32 characters Default value N A Comments Absence of
13. telemetry system easy All described on next pages parameters are available in MTManager configuration module after adding MT 151 HMI to project Detailed description of MTManager functionality is provided in MTManager User Manual 8 1 Parameter groups For clarity and ease of use module configuration parameters of MT 151 HMI were divided into logically or functionally connected groups in the following order Header group contains unchanged 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 is possible to set up routing rules for each port allowing to automatically passing 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 8 1 1 Header The header contains basic information describing the module along configuration with version number and version of configuration file stored by the program Information displayed is
14. 20000 units above 14 bits This setting is advised for low dynamics signals Default value Comments 8 1 4 3 2 Name Function Data type Range Default value Comments 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 All to AI4 N A 8 1 4 3 3 Engineering units Function Data type Range Default value Comments 8 1 4 3 4 Low reference Function Data type Range Default value Comments 8 1 4 3 5 Low reference Function Data type Range Default value Comments Allows user to enter unit name for information purpose Text Letters and numerals max 15 characters HA N A internal units Defines number of pA 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 engineering units Defines number of engineering units corresponding to number of pA defined by Low reference internal units parameter Number 32768 32767 4000 Used along with other reference parameters for rescaling input signal
15. 4 2 3 Binary outputs MT 151 HMI telemetry module is equipped with 12 optoisolated binary outputs marked as Q1 Q12 Outputs state can be controlled locally by user written program or remotelly via GPRS SMS or using one of available communication ports The binary outputs Q1 Q12 can be individually configured to operate as binary inputs supporting positive logic 4 2 4 Analog inputs 4 20mA MT 151 HMI telemetry module is equipped with 4 optoisolated analog inputs operating in 4 20mA range and marked as AI 1 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 rises for one program cycle These bits can be used for tracking analog input value 4 2 5 Analog inputs 0 10V MT 151 HMI 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
16. 7 GPRS testing interval ping Function Data type E 38 Defines in minutes interval of testing GPRS connection Number Range Default value Comments 0 250 min 40 min Testing is performed by sending data frames to defined by the parameter GPRS testing address Test frames are sent when the module is logged into APN and no communication is performed the period defined by this parameter If the test fails the module does not receive confirmation within 12 seconds and after 3 retries the connection to the APN is reset 8 1 3 4 8 GPRS testing address ping Function Data type Range Default value Comments 8 1 3 4 9 Roaming Function Data type Range Default value Comments 8 1 3 5 SIM2 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 Defines whether operation in foreign GSM network is allowed Selection list On In case of absence of no 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 during the absence in the absence of home network
17. Analog input AI1 connection with passive sensor Al 1 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC12 24 D D 3 Rxo Tx0 Q1 Q2 Q3 Q4 Q5 QE Q7 Q8 wlanjar 8 2 18 a 12 24VDC Power supply 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 5 Communication ports Port 1 optoisolated 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 20 name RS 232 transceiver output RS 232 receiver input comi Signal ground level for both modes RS 485 transceiver output D RS 485 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 i ia Y Description O 4 RXD 5 RTS Handshake output Ready To Send Handshake input Clear To Send Ethernet port optoisolated 10Base T 100Base TX communication port Port connector RJ 45 is located on the front panel 21 Pin pescripton O Not connected Not connected 6 RX Receiver Not connected Not connected 5 6 GSM antenna Connecting the antenna is necessary for reliable data transmission from MT 151 HMI
18. M I5 I6 17 I8 ANALOG INPUTS BINARY INPUTS 1 Binary inputs Q1 Q12 in positive logic Al 1 2 PORT 1 BINARY OUTPUTS INPUTS 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 2 Binary outputs Binary outputs Q1 Q12 in positive logic Al 1 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC12 24 V1 V2 V D D amp Rxb TxD Q1 Q2 Q3 Q4 Q5 QE Q7 QS Q9 Q10 Q11 Q12 2 2 o o o Attention e Power cables length should be lt 10m e Signal cables length should be 30m e For longer cables it is advised to use external overvoltage protection 5 3 Analog inputs 4 20mA Analog input AI1 connection with active sensor 19 10 111 112 113 114 115 116 BINARY INPUTS 2 11 11 12 12 13 13 14 M 1 I2 13 14 15 l6 17 I8 El 19 110 141 112 113 114 115 116 ANALOG INPUTS BINARY INPUTS 1 BINARY INPUTS 2 19 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 4 Analog inputs 0 10V Analog input AV1 connection with active sensor Al 1 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC12 24 vtev24 v o D 3 rofna at az as as as as ar a a aro arse amp 8 e Z
19. be addressed indirectly using register value e g TXT HR116 will point to 1 position on Text list providing that register located on address 116 in holding registers address space is 1 Defines value which is sent as trapSourceStatus variable User can set any value from range O 65535 MIB file provided by Inventia lists several values of parameter 1 unknown noStatus normal alarm Hi highWarning alarm HiHi highCritical alarm Lo lowWarning alarm LoLo lowCritical timer reached its threshold timeExpired ON turnON OFF turnOFF counter overflow countOverflow O ON AU BW NJ E o If Trap data source parameter is set to Registers then Status column is not visible and trapSourceStatus variable value is copied from register HR1030 5 trap index 1 Defines value which is sent as trapSourceValue variable Value can be enters directly or can be loaded from internal registers User can set any value from range 0 65535 Possible register syntax IRxxxx value of Input Register address xxxx HRxxx value of Holding Register address xxx IBxxx value of Binary Input address xxx HBxxx value of Binary Output address xxx If Trap data source parameter is set to Registers then Value column is not visible and trapSourceValue variable value is copied from register HR1031 5 trap index 1 Defines value which is sent as trapSourceType variable User can set any value from range 0 65535 MIB file prov
20. binary outputs address space More information on calculating bit addresses can be found in Memory map chapter in Appendices Defines timer time unit and therefore precision Selection list 1s O 01s 1s N A 8 1 4 6 2 4 Counting range in timer units Function Data type Range Default value Comments Defines timer counting range Number 0 2147483647 0 N A 8 1 4 7 Constant parameters Constant parameters are the constant values entered in configuration which can be used within MT 151 HMI program what allows to parameterize universal program for application needs 8 1 4 7 1 Number of constant parameters Function Data type 62 Defines number of constant parameters on list Number Range Default value Comments 0 128 0 N A 8 1 4 7 2 Number of constant parameters textual Function Data type p Range Default value Comments 8 1 4 7 3 Parameter 1 Function Data type B Range Default value Comments 8 1 4 7 4 Parameter 1 Defines number of constant textual parameters on list Number 0 72 0 N A 128 Defines value of constant parameter Number 32768 32767 0 N A 72 textual Textual parameters in text format Max 31 characters 8 1 4 8 Micro SD card Micro SD card can be installed in the module and is designated for store data from internal data logger It is additional copy of the internal logger data Information is stored in CS
21. ias 18 5 T2BINARYANPUTS cioe Shes prre to te pee ere ree aenea d Caves eueet biete Paelbue ee ak deae ruo cal pn age CAULE ONCE 18 5 2 BINARY OUTPUTS3 ar 3 37 2 55 2 ro er ER IR ERE CREED GRENADA ats ciano EEN TON RUNI INR ee ERES E Eee XR PIA pe Ere ERE P TE REN ENERO aida 19 5 3 ANALOG INPUTS 4 20MA oiiire eiiie sne eee ee Reine ene Nerea iiO onda a Lee iae ona eee dando eaae eee aeneo eaa den o 19 5 2 ANALOG INPUTSO TO V 5 oor ce e dec e e a 20 5 5 COMMUNICATION PORTS c 2 152 5 43 8 ad 20 5 6 GSM ANTENNA tise 22 5 coa e co ae Fo hne coeno dcs bide Poen e dnte cosescdocacahedede cdacdochceheveverdechsesede oe ver perire eaae Lago caua do de 22 5 7 SIM CARD INSTALLATION 3 652 AAE decet to ia et Ad e ede o aad odas 22 5 8 MICROSD MEMORY CARD INSTALLATION cccccceceeeeeerererenee aeee eenenene nene ne nene tt ttet arara rece t Ett E EEE EEE E sess re esee esses seen 23 5 9 POWERSUPPLV PE 24 6 STARTING THE MODYJLE ie rms ee eine ER eSI eoe ee dando eer ge eu ane ov inda Ss aee ee aee eu ee Cab Enab ada road ries ee ke caes e eds 25 7 INTERFACES AND COMMUNICATION METHODS ee eene eene nennen nennen ehn sena nnne sehn nnno shes eso se een n nun 26 FEM oai eR 26 FLL Transparent MOG 2 EUN a ee vasa eden A doce nueve Hagae dan eo v aao Yeux URS 26 7 1 2 Modbus RTU Master MON a a a a aAA A r Aaaa A Aaa ss essa asas ss sss kaeT 26 7 1 2 1 Modbus RTU Slave mode e bre REED ER AV eroe a ete Epa n i
22. int32 LoHi REG CK15 CK15 asynchronous timer current value int32 LoHi REG CK16 CK16 asynchronous timer ses 1072 current value int16 LoHi RESTART Module restart counter C1 C8 program counters counting inputs active on rising edge CLK C7 136 Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 m uia qu alo pa capa stream 27 6 5 2 3 2 1 90 C1 C8 program counters resetting inputs active on 1 rd 9 H U x m N A a a z z z ul wi ul r4 a E U x RST C7 RST C6 RST C5 RST C4 RST C3 o E Uu c T1 T8 program timers enable bits active on 1 EN T7 EN T6 EN T5 EN T4 T1 T8 program timers resetting bits active on 1 RST T6 RST T5 RST T4 RST T3 RST T2 Ec E AS SS 30 1e p16 ris us es P12 Pii eo Po e e7 re Ps 0 5 T T El ns UM SN 315 1840 P256 0255 P254 P253 P252 P251 P250 paso P228 5247 0266 P245 0248 P243 P242 P241 int16 LoHi REG1 General purpose 16 bit register 371 5936 int16 LoHi REG256 General purpose 16 bit register int32 LoHi DREG1 General purpose 32 bit EE 5968 re signed value General purpose program int32 LoHi DREG128 E purpose 32 bit EE E signed value 10080 int16 LoHi PV C1 program counter threshold value 137 Holding registers binary outputs address space read write access using Modbus RTU an
23. listed in this group are set individually for each binary output 51 8 1 4 2 1 Name Function Data type Range Default value Comments 8 1 4 2 2 Input type Function Data type Range Default value Comments 8 1 4 2 3 Filtering Function Data type Range Default value Comments 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 maximum time duration of electrical signal is 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 8 1 4 3 Analog inputs 4 20mA AI1 AI4 MT 151 HMI is equipped with four current analog inputs operating in 4 20mA range All parameters but sampling frequency are set individually for each input 8 1 4 3 1 Sampling frequency 52 Function Data type Range 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
24. module SMA female type antenna socket is placed on the module front panel 00 eeeeecececceeeece 00 299999999 o HIRT BLM HB eT re 19 110 H1 12 1103 14 H5 w amp GSM signal strength GSM antenna socket Proper antenna placement is important during the module installation In case of low GSM signal level using the directional antenna with high gain may be necessary 5 7 SIM card installation 22 MT 151 HMI module is equipped with two SIM card slots that allow installing two miniature SIM cards not micro 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 supports a low voltage 3 3V SIM cards It is advised to install SIM card after configuration of module to prevent module from writing wrong PIN to SIM y B gt 9 ETHERNET PORT 5 8 MicroSD memory card installation MicroSD memory card has to be slip in the gap narrow side facing toward the memory socket until a click Correct installation and format of the memory card is signaling by R W indicator Light up of the diode can be delayed up to 30 second Memory must be formatted in external reader me MicroSD To extract memory card a narrow flattened tool like small screwdriver is required Press OK button for 3 second using arrow key go to option Actions and select Remove SD card option and press OK select Yes below
25. ne ves ep redu e does VP e aee Ee e DE ES 141 1 Telemetry Module MOBICON MT 151 HMI Professional Telemetry Module MOBICON MT 151 HMI User Manual ETHERNET PORT2 Al 1 2 PORT Bl PUTS INPUTS ACCU Iw v2 veo D fob xod at Q2 Q3 Q4 Q5 Q6 Q7 QS Q9 Q10 Q11 ou s 8 18 COGOOOCOOOKOQUXOSOOSG QOeoOOOQKC Class 1 Telecommunications Terminal Equipment for GSM GSM GPRS Telemetry Module for monitoring and control C 850 900 1800 1900 2 Module destination Telemetry Module MT 151 HMI is a device which incorporates functions of industrial PLC with integral graphical display logger and protocol converter which 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 allows 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 HMI controller is an optimal solution for demanding wireless telemetry control diagnostic surveillance and alarm systems General attributes of MT 151 HMI e Dual SIM technology possibility of using 2 SIM cards Integral quad band 850 900 1800 1900 GSM modem 16 optoisolated binary inputs 12 optoisolated bi
26. ok EH SL7 ok E CNT7_OVFL MT2MT_21 MT2MT_5 TSL5_ok EET SL5 ok B MT2MT 22 MT2MT 6 TSL6 ok aja SL6_ok A m 2 Si T r4 Er z O x T T EH U x T mo u WN E T 1 E gt N Er gt n Er gt N E gt TE LL gt gt 9 9 o N A A E E Z 2 O O x x 9 9 A A E ER un un x x 2 9 o N A A ER ER Uu Uu m N z i E E N N E E o co T E E N N E E LL gt En E A E 2 O x x 9 o Ln Y Ti A ER ER Uu Uu x x 9 5 Ln Y A A ER ER Uu u un i E E E N N E E eo a i E E N N E E MT2MT 26 MT2MT 10 TSL10 ok MT2MT 25 MT2MT 9 TSL9 ok A m 2 9 wo m H Z O x o T u o bl u 10 E wo T E N H N E N E gt 132 Input registers binary inputs address space read only access using Modbus RTU and TCP functions 2 and 4 Address ess TESTE Neme Description 27 elsfala 2 17o i HHHH Last restart cause Rst_OS restarted by system Rst_Firmware restart after firmware update Rst_Config restart after configuration update Rst_Power_on restart after power on Rst_Watchdog watchdog Rst_Firmware Rst_Config Rst_Power_on Rst_Watchdog am SMS CNT SMS send since power on 3096 inte LoHI eme DAI Daily SMS counter 2112 int16 LoHi SYG LEV GSM signal level 96 2128 int32 LoHi FIRMWARE Firmware version y xx zz 2144 VER encoded in HEX PRG CLINE Numbe
27. one program cycle These bits can be used for tracking analog input value 4 2 6 Serial ports MT 151 HMI 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 by MTManager program suite delivered for free with modules e PORT 2 RS 232 port with 5V power output dedicated for communication with control panels and other devices 4 2 7 Ethernet port MT 151 HMI telemetry module is equipped with Ethernet 10Base T 100Base TX port used for communication with external devices 4 2 8 USB port MT 151 HMI telemetry module is equipped with USB B port which is used for device configuration MTManager is required This Port is visible in system driver only for Windows as COM port Device communicates at 115200 bps with 8 data bits no parity bit and 1 stop bit Port is not optoisolated 13 4 2 9 MicroSD card reader MT 151 HMI telemetry module is equipped with microSD card reader supporting up to 32GB microSD cards Card should be formatted using FAT32 file system User can use the memory on card to store files with data from internal data logger 4 2 10 Real time clock MT 151 HMI 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 manual
28. port and its Modbus ID is 1 It can be accessed from Ethernet by PLC it should poll MT 151 HMI using Modbus TCP 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 8 1 5 8 4 Transparent routing table Idx Index number Name Friendly name facilitating identification of routing rule purpose Max length is 31 characters Interface A None Routing rule is disabled 86 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 A IP address for Interface A Parameter valid only for GPRS and Ethernet interfaces Interface B 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 i
29. send unsolicited information traps to server Data transmission is realized by exchange values of device variables numbers text Variables are organized in form of tree Each variable has unique OID Object ID identification number which plays a role of variable address Next to standard variables referring to device interface description and network status producer can add branch with own parameters Such branch should have unique ID number assigned to producer by IANA organization Inventia is using ID 42317 Variable tree structure is defined as a MIB data base and can be saved in text files using ASN1 Abstract Syntax Notation One notation Variable tree MT 151 HMI has structure as below 29 30 Je inventia J J mt151 3 Je info Wh infoModType UY infoModsn Wb infoModrw state p resources UY resiR Count b rest Count 8 resiBCount UY restiBCount resIRTable resHRTable E q a 8 trapSourceStatus UU trapSourceValue b trapSourceName trapSourceType cT trapSourceIndex Sending unsolicited data Traps Trap is a data packet send from device containing device ID device IP address timestamp and Specific ID trap ID To basic data described above device can add additional data from variable tree Module adds to trap following variables in order as follows trapSourceStatus trapSourceValue trapSourceName trapSourceType trapSourcel ndex Content of these variables can be set up in module configurat
30. 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 35 8 1 2 7 Transmission timeout Function Data type Range Default value Comments 8 1 3 GSM Defines the wait time for reception confirmation of sent data frame Number 1 60Ts 8 s The value of this parameter along with GPRS transmission retries number influence on maximum time of data frame sending For default values the time is 2 1 8 24s After that time module drops data frame from queue GSM group contains parameters responsible for GSM GPRS networking Proper configuration of those parameters is essential for successful GSM and GPRS communication 8 1 3 1 Number of SIM cards 8 1 3 2 Use of GPRS 36 Function Data type Range Default value Comments Function Data type Range Default value Comments Defines number of SIM cards used by device There are two slots 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 Dual SIM feature is active 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 Whe
31. space 70 Function Sets registers address space for chart data source register Data type Selection list Range IREG Input analog registers space HREG Holding registers space Default value Comments IREG Parameter visible only when Data acquisition parameter is set to Automatic 8 1 4 9 7 6 Register address Function Data type Range Default value Comments 8 1 4 9 7 7 Data scaling Function Data type Range Default value Comments 8 1 4 9 7 8 Data scaling Function Data type Range Default value Comments 8 1 4 9 7 9 Data format Function Data type Range Default value Sets registers address dec for chart data source Selection list O 255 for IR space source O 8191 for HR space source 1 Parameter visible only when Data acquisition parameter is set to Automatic multiplier Allows to set multiplying factor for data source register Number 1 1000 1 Parameter visible only when Data acquisition parameter is set to Automatic divider Allows to set dividing factor for data source register Number 1 1000 1 Quotient will be rounded down to integer value Parameter visible only when Data acquisition parameter is set to Automatic Allows setting a final view of the value in decimal fraction Selection list Integer Acquired data will be presented as is 1 decimal place Acquired data will be presented as f
32. units value on Y axis is limited to 4 symbols and one sign values exceeding this limit are rounded down and presented in engineering notation if needed e g 32100 is presented as 32K1 31 99 is presented as 31 9 For details refer to Chart acquisition description located in Appendices 8 1 4 9 1 Show status screens Function Data type Range Default value Comments Turns on off showing of Current analog inputs status screen and Power and voltage analog inputs status screen Selection list Yes All three status screens are shown No Only main Module status screen is shown Yes N A 8 1 4 9 2 Show welcome screen Function Data type Range Default value Comments Turns on off showing of user defined welcome screen during the Module startup Selection list Yes Welcome screen is shown No Welcome screen is not shown Yes N A 8 1 4 9 3 User screen count Function Data type 2 Range Default value Comments 8 1 4 9 4 Chart count Function Data type 5 Range Default value Comments Sets number of User screens visible on device display Number Os 8 0 N A Sets number of Charts screens visible on device display Number 0 4 0 N A 67 8 1 4 9 5 Welcome screen 8 1 4 9 5 1 Display time 8 1 4 9 5 2 Line 1 Welcome screen is designed to show statical text information e g phone and address of an integrator Welcome screen is presented just aft
33. when set to 1 then module is successfully logged into GSM network Full list of System flags is available in Memory map chapter in Appendices 4 3 8 Control program PLC functionality of MT 151 HMI 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 User Program is executed once a 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 a sample program is presented which executes start stop algorithm with two momentary inputs I1 start I2 stop and one output Q1 Bl MTM MT ML Manager General View Transmission Programmer Help a lt a q 90 as Tree us Find Favortes Text mode Ladder mode MTprog mode UD New project 1 f include MI 151 n Lu T 151 2 ES E New module MT 151 2 i boolean AND XY o boolean OR XY compare boolean X and Y negate boolean X is X grater then Y o M iG A ine a is Xlowerthen Y a s 1 OR Ti Qi Pi s is X greater equal then Y AND Pi NOT 12 Qi le Xlower then Y is X equal to Y m g 4 ON OFF Qi using two momentary inputs Ii ON and I2 OFF New module MT 151 EE MTM MT ML Manager General View Transmission Programmer Help 19000 Y
34. 1 Number O 65535 or name from bit list see bit list in Appendices N A 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 8 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 20 logical state change from 1 to 0 0 gt 1 N A 8 1 4 5 5 Counting range 32 bits Function Data type Range Default value Comments Defines the bit which state change increments counter value by 1 Number O 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 59 8 1 4 6 Timers Timers group contains configuration parameters of module timers 8 1 4 6 1 Synchronous timers CT1 CT16 Synchronous timers measure cyclically defined time intervals They are synchronized with module real time clock RTC The CT flag corresponding with timer is set to high state in one program cycle while the setting value of period has been counted 8 1 4 6 1 1 Start HH MM
35. 1AC to holding register 4 H HR4 01AC Read 8 bits starting from address 16 Input Registers 1 B8 1B16 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 119 S 1R18 Read Holding Register address 122 with two decimal places presentation F2 HR122 Write texts from registers starts from HR7000 address to register O T HR7000 Read the constant textual parameter value depends from bit address number 272 I1 from analog inputs space include binary input space If the input 11 0 then will be read a value of the text parameter under index 1 0 1 If the Input I1 1 then will be read a value of the text parameter under index 2 1 1 TXT 1B272 1 12 3 SNMP trap configuration example Below is presented sample configuration of three traps with data assigned to trap variables directly in configuration Trap data source parameter is set to Configuration Idx Specific ID Triggering bt Triggenngedge Trap name Status Value Type Index 1 20 CT5 0 51 Timer5 7 0 6 5 2 10 AV2 LoLo 0 51 AnalogVoltage2 6 IR32 4 2 3 30 n 1 0 Input 9 0 2 1 Trap number 1 has Specific ID set to 20 which according to MIB file means that synchronous asynchronous timer reached its threshold Triggering bit is set to CT5 and triggering edge to 0 gt 1 which means that this trap will be triggered when time
36. 2 Interface type Default value Comments Function Data type Range Default value Comments Modbus RTU Slave MT 151 HMI 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 HMI 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 HMI 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 devices can be connected to port in this mode RS 232 N A 8 1 5 5 3 Transmission speed 8 1 5 5 4 Stop bits 74 Function Data type Range Default value Comments 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 Defines number of stop bits used during communication Selection list i1 1 When one of Modbus operating modes is selected this para
37. 32 bit counter register int32 LoHi CNT11 32 bit counter register int32 LoHi CNT12 32 bit counter register EEE QT 28 as 29 4e4 int32 LoHi CNT13 32 bit counter register RECEN 31 496 int32 LoHi CNT14 32 bit counter register EJES int32 LoHi CNT15 32 bit counter register 34 544 int32 LoHi CNT16 32 bit counter register 36 576 CK1 asynchronous timer 38 608 i int32 LoHi REG CK2 CK2 asynchronous timer 39 624 current value int32 LoHi REG CK3 CK3 asynchronous timer 656 current value 42 672 i E int32 LoHi REG CK4 CK4 asynchronous timer 44 704 int32 LoHi REG CK5 CK5 asynchronous timer 46 736 CK6 asynchronous timer 135 Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 Address Ele tatoo ca ld do Me o Description EME EEE AE AECA O O ec int32 LoHi REG CK7 CK7 asynchronous timer current value int32 LoHi REG CK8 CK8 asynchronous timer current value int32 LoHi REG CK9 CK9 asynchronous timer ps current value 54 864 z int32 LoHi REG CK10 CK10 asynchronous timer 55 880 current value 56 896 4 CK11 asynchronous timer int32 LoHi REG CK12 CK12 asynchronous timer 59 944 current value int32 LoHi REG CK13 CK13 asynchronous timer current value int32 LoHi REG CK14 CK14 asynchronous timer RECI 1008 current value
38. 4 5 3 Decrementing INP uscar tee tee d ten ates vp EI E Eq eR ERE dee e e 59 8 1 4 5 4 Active edge of decrementing input eene nennen nnne nnne nennen nnne 59 8 1 4 5 5 Counting range 32 bits eat dz 59 BELA Or FIMENS IRE 60 8 1 4 6 1 Synchronous timers CTL CTLO ta 60 8 1 4 6 1 3 Start HE MM iei eei i n ERE EU ERI PUER URGE PI PIRE 60 8 1 4 6 1 2 Period 8 1 4 6 1 3 Days of week 8 1 4 6 1 4 Days of month aii eni e eri al E e is e aiii 8 1 4 6 1 5 Months 8 1 4 6 2 Asynchronous timers CK1 CK16 8 1 4 6 2 1 Activatirig Input tei e UE E ERU denia IRURE EO IRE ERES Re S 8 1 4 6 2 2 Reset InDUE Yas iecore mete eer iere ree ede Ls gla nm dt 8 1 4 6 2 3 Timer time nlt iioi rhe rte esie i eic Run Fede pee Drs see eee ge emo asa sema Eas 8 1 4 6 2 4 Counting range in timer UNITS eee eee eeeeneeeeeeeeeeseneeeeeeeeeeeaeeeeeeeeesaaaeeeeeeeeesaaeeeeeeeeesaaeeeeeeeeeaaaee 62 8 1 4 7 Constant parameters ne A suvedet IE 62 8 1 4 7 1 Number of constant parameter Sasori eene 62 8 1 4 7 2 Number of constant parameters textual esses eene nennen nennen 63 8 14 73 Parameter 1 128 ione ei pasa Ee Ee dO 63 8 1 4 7 4 Parameter 1 72 textual eee ads ve aeu 63 8212458 MICEO SD Cd iii iae am dut editam anie 8 1 4 8 1 Use of card e rh eene e ec t n cpi e RETA A STA BD Starts caedere eei eet ene Ee ee E Pea ete diate lee HE e ed earl 8 1 4 8 3 Period 8 1 4 8 4 Delete
39. 5 6 4 3 Mapped space address Slave Function Data type Range a Default value Comments Defines address of first resource bit or register depending on address space of data block mapped from Slave to module Number O 65535 0 setting this value to O disables data block 8 1 5 5 6 4 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 8 1 5 5 6 4 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 8 1 5 5 6 4 6 Mapped space refresh interval Function Data type Range Default value Comments Defines in seconds interval between polls of Slave resources within data block Data writes are also executed with this interval Number O 65535 s 1 Entering O forces communication with maximum possible speed This speed depends on port communication speed and number of data blocks 8 1 5 5 7 Transparent mode In this mode communication on serial Port 1 is channeled to other communication port or GPRS network according to rules defined in
40. 5 8 GPRS testing address ping er RR ERRAT eee av BR CAE RI GE ORE EE ied 8 1 3 5 9 Roamllig O 8 1 3 6 GPRS 35i bs cett intei tad tea oid e e en ntes bus lm dona derer 8 1 3 6 T Sender IP address control RR Rm EM 8 1 3 6 2 Wait time after disconnection 8 153 5 MO aside eitis A eU LOU E AM D NT doca VM seated leao Mile dos cosa Edi indo 8 1 3 7 1 Daily SMS limit 8 1 3 7 2 Number of SMS sending retries eidem pci Change lee Yid ptite lieber gd 43 8 1 3 7 3 SMS limit exceed informaticas 43 8 1 3 7 4 Recipient of SMS limit exceed information cccccessccesscssecssecsseeessecseecseecsseesseeseseeseeseaeesseessreseeeees 44 3 13 75 Answer for blank SMS iiie ib ace ed E belegt deii 44 SAITO MS ei a 44 8 1 3 7 6 1 Date formatear ei ee A A tci eni tee Ee HG 44 8 1 3 7 6 2 Time fOtT ats cce t Eee aen gi d roter o t rote bene de 45 8 1 3 7 7 Symbolic names uir e MR I REIR IDEE RR UG EAE RE ei Ree eee es 45 8 1 3 7 7 1 Number of symbolic names tee eer ee ie eee TE eee eese reta 45 81 37 72 Symbolic n me table ii E b LR o tib bets 45 8 1 3 7 8 MACIOS EDD 46 8 1 3 7 8 1 Numb r of mactos i nnne mde IRE HR CI dig Rd Rim 46 8 1 3 7 8 2 Macro table T 8 1 3 8 Authorizedin mbers 5i I ee RR 8 1 3 8 1 Number of phone numbers eene enne nennen nnne eene aae EA EE Ea a aasia 47 8 1 3 8 2 Number of IP addresses 8 1 3 8 3 Phone 8 1 3 8 4 IP
41. 8 1 3 5 8 GPRS testing address ping Function Data type Range Default value Comments 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 41 8 1 3 5 9 Roaming Function Data type Range Default value Comments 8 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 the roaming service enabled GPRS contains parameters applying to GPRS communication handling valid for both SIM cards 8 1 3 6 1 Sender IP address control Function Data type Range Default value Comments Switches the control of sender IP address on off 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 c
42. APN name disables login into GPRS network 8 1 3 5 4 Authorization Function Allows to choose authentication method of PPP protocol Data type Selection list Range None None authentication method chosen PAP PAP authentication method chosen CHAP CHAP authentication method chosen Default value None Comments 40 8 1 3 5 5 APN user name Function Data type Range Default value Comments 8 1 3 5 6 APN password Function Data type 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 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 8 1 3 5 7 GPRS testing interval ping Function Data type Range Default value Comments 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 frames are sent when the module is logged into APN and no communication is performed during the period defined by this parameter 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
43. B indicator is lighted when USB connection is correct blinking when transmission e R W indicator is lighted when MicroSD card is formatted and correctly installed blinking when memory card is read or written e POWER indicator is lighted when main power is connected turn off after module restarting for a 5 seconds e ACCU indicator is lighted when additional battery is connected blinking when battery voltage is low below 11 5V 9 1 1 GSM status GSM status on Module Status Screen provides information about GSM login initiations short blinks Tx indicates sending the data and SMS Rx indicates reception of the data and SMS when transmitted data and signal strength after login procedure is finished GSM LED is lights on Signal level is signaled on progress bar which a full fill means a maximum strength 103 104 doo OOOO OOOO OOOO 7614 12 19 PRG RUN 1 23 00 ETH Link O Start or restart the GSM modem OO00 OOOO OOOO OOOO 2814 12 1 PEG RUM 1a 05 ETH Link O GSM connection is initialized Tx and Rx blinking few times ooo OOOO OOOO 0000 2000 OOOO OOOO 0000 2615 61 15 PRG RUN 2615 61 15 PRG RUN 11 31 27 ETH Lrko 11 38 31 ETH Lrko Pi TO RO Pi TO RO TxO ExO P2TORO TxO RERxmpD P2TORO odo 0000 odo o 0000 0000 odo o or Currently used SIM card ooo OOOO OOOO 0000 2814 12 1 PEG RUN 1B B3 ETH Lnk O Pi TORO P2 TORO Dann Dn 0000 o GSM connection is still initialized Tx Rx blinking several time
44. 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 5 6 5 2 Data frame delimiter 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 79 8 1 5 6 5 3 Channel reservation time Function Data type Range Default value Comments 8 1 5 7 Ethernet Defines in seconds maintain time the transmission channel with external device transmitter Number 0 00 655 35 s 0 00 s Subgroup Ethernet contains parameters configuring operation of Ethernet port 8 1 5 7 1 Use of Ethernet Function Data type 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 can connects to server as an client and trying to get the data according to Modbus TCP Client data blocks or can transmitting incoming data according
45. EESE ARA eg e ERE RE e 4498 PERI RENS XAR e EE sduiace e404 ds KE REA T ex ARR AN 13 42 6 Serial porne ptt e d o tede I D ER eer ere Ut Eee NI d IAM 13 42 7 Ethernet OREA dee t b d mo ed dete let eh p eee eoe dae a ee e M E Dao Cod eas 13 22 8 USB 010 a ze ii A Ai aiite cepe dede tee deren nea AEE 13 4 2 9 MicroSD card reader iie d eer en a ee do oH er P eo ERRARE o Pole ad neve ghia AEN Exe caes Re uu 14 4 2 10 Real ME COC ii ero v o roe ee a bc PR RARE Rege RE e cedo PERI tenes ia E ARAS 14 2 3 INTERNAL RESOURCES 2 52 17 22 792 9 9 2 egos do rendo ete sean inda ua ERO one galo cu Ee PER REIR ati o A asas 14 T WC DM BI Io T ii a Addon 14 4 3 2 Registers cos Uo Debs ND eem eau d 14 4 3 3 COUDtets o RT REL eet ee ot ed aa aE dade ae a RR a e ERE a Poo de ge usd de oae d de Hoo o deae puel dee EE HT iaa 15 ASA MMS cs aeta texte de dte enean iade cte net evade dread eo penat tee emen rne ea de ee dera nde 15 4 3 5 MT2MT b ffer x a e HET BRE ba NI Sig ia Cab oM 15 2 3 6 Constant parameters 2 vp e io P RE RN POR RE RR RENE RENS suavebin In AA inata aaa 15 43 7 System fldgs t beoe aa eese d tee cate ute ed tuc oe Cadena 16 4 3 8 Control Program i ces aaa NN ede ea ln etae e d 16 4 4 SIMICARDSISLOTS 5 rrr A bale axe lite eae sd dae PRA SERRE SA O dan CASSA ERI RENE EORR te Ree ERES 17 ALSSANTENNA PEER EE chasbede sxleten sedan EE vevesehasbededvereezors 17 4 6 A EM 17 AT ENCLOSURE ocacion an MEE 18 5 CONNECTION DIAGRAMS
46. O 0000 2615 61 15 PRG RUN 13 19 39 ETH Lnkn Pi TORO TxO Exp P2 TORO odo 0000 ooo o SIM card is blocked Enter right PUK code using cellphone 9 3 Unlocking the SIM card 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 on main status screen In order to unlock the SIM card do the following e Power off the module Remove the SIM card from device 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 Power the module off Install the SIM card in the module Power the module on Executing the procedure unlocks the SIM card and enables module s proper operation 109 10 Technical parameters 10 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 IP40 Humidity up to 95 non condensing 10 2 GSM GPRS modem GSM band QuadBand GSM 850 EGSM 900 DCS 1800 PCS 1900 Transmitter peak power 33 dBm 2W station of class 4 GSM 850 EGSM 900 Transmitter peak power 30 dBm 1W station of class 1 DCS 1800 PCS 1900 MHz type Cinterion TC63i 10 3 Power supply 110 Maximum external battery charging current NOTICE Due to high
47. O OOOO OOOO OOOO OOOO 0000 0000 Ii 0 I1 OFF Ii B8 11 0FF Redg1827 al Fegiz a 11 al oi 1 21 0FF 0000 0000 0000 C N MODO O00000 0000 e To make texts more clear it is possible to change text alignment from default left to right alignment For this purpose is used vertical bar sign sign Every text placed after that sign is right aligned Entering in line text I1 state 1B272 when 11 is O will result on screen OOOO OOOO OOOO 0000 Le B ooo 0000 0000 0 and when I1 is 1 it will give BOOO OOOO OOOO 0000 0000 0000 0000 o Syntax errors are signaled like on screen below BOOO OOOO OOOO 0000 1 0000 0000 0000 0 0 12 5 1 Chart acquisition description Each chart is using 100 registers from holding registers address space for data acquisition Chart W1 is using registers 7000 to 7099 chart W2 registers 7100 to 7199 chart W3 registers 7200 to 7299 and chart W4 registers 7300 to 7399 Those registers are either filled automatically parameter Data acquisition is set to Automatic or by 125 user parameter Data acquisition is set to User manually by external device or by user program Those registers correspond to various functions EN Ad offset 1 Timestamp of last sample LoHi format is Exact the same as used by RTC module 3 and available in Timestamp register 30 00 m 4 First 14 bits are used for storing address of sampled register 15 bit Header is pointing out l l sa
48. Telemetry Module MT 151 HMI User Manual Ce a CCO CP CEC ESTE 4 1 11 fi 1g IS 16 17 e 19 0 111 n2 n3 114 115 116 8 in entia 2 IE e USB e 4 casas Fei ooog DONO 0000 LH E em Ay POWER CHA Al 1 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC1224 v1 v2 y RxD TxD Q1 a2 qa Q4 as Q6 a7 Q8 Q9 las D 2 2 janja a g 8 8 in entia 1 n 12 12 13 13 14 Mrara ONS RIE AZ telemetria pl Ce Telemetry Module MT 151 HMI 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 19 MT O 20 Inventia Ltd 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 noresponsibility for errors or omissions or for damages resulting from the use of information contained in this documentor from the use of programs and source code t
49. Transparent routing table These group contains additional communication parameters for this mode 8 1 5 5 7 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 77 8 1 5 5 7 2 Data frame delimiter 8 1 Function Data type Range Default value Comments Function Data type Range Default value Comments 8 1 5 6 Port 2 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 5 5 7 3 Channel reservation time Defines in seconds maintain time the transmission channel with external device transmitter Number 0 00 655 35 s 0 00 s Subgroup Port 2 contains configuration parameters of RS 232 serial Port 2 8 1 5 6 1 Operating mode Function Data type Range Default value Comments Defines operating mode of serial Port 2 Selection list Inactive Serial Port 2 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 para
50. Trap name 96 Allows to choose whether data added to traps is defined in configuration or loaded from registers Selection list Registers Add Holding registers as data source HR1024 HR1027 Configuration Data source is defined in Trap table configuration Registers HR1024 HR1027 are still allocated to SNMP feature Registers N A Friendly name facilitating identification of IP receivers in SNMP traps definitions Max length is 20 characters IP number Index number Provides to server information about type of trap event Basic information for trap meaning distinction by SNMP server User can set any value from range 0 65535 MIB file provided by Inventia lists several values of parameter 10 analog input alarm activated 11 new analog input measurement 20 synchronous asynchronous timer reached its threshold 30 binary input state change 31 binary input state readout 40 counter overflow Allow selecting a marker or a predefined bit will be send after the trap changed Allow selecting an edge of triggers data trap transmission 0 gt 1 1 gt 0 0 lt gt 1 Defines text which will be sent in trap as trapSourceName variable It should provide information about trap source e g binary input name Entered text is parsed as SNCS command syntax excluding macros This includes using ZTXT x mnemonic which inserts constant text string from x position in Status Value Type Text list X can
51. U adeo et e apa 71 8 1 429 IA 3 2 Eoo oe HN MU MM IT 72 8 1 4 9 7 11 MiniMUM Wale iicet e eie e ei e et e e ie ER Eee UE Phe RES 72 8 1 4 9 7 12 Maximum value 8 1 5 Commu nic tion POMS saia tette ceeds ca a nasce AR o DE LA REDIT as AAA RS PA Lena 8 1 5 1 Modbus ID Port Leors raeg en ente EUER EO a ia dir DAY EX A nage anne A Ue ipu eR Ee Me van 8 1 5 2 Modbus IBD Port 2 3 nacen e pente ata tee Dite davis 8 1 5 3 Modbus ID Etherhet eie e tet LR I ORDERED OP RR RU D HERR ER 8 1 5 4 Modbus ID GPRS casas ae s 8 1 5 5 Port AAA 8 1 5 5 1 Operating mode 8 1 5 5 2 s Interface type esca m ER RE ARDE ES E OR RS SAD ESSE E FERAS DN E ER 8 1 5 5 3 Transmission speed m Hs T wees 8 1 5 5 4 StOp bite niei certe tn tette ge e rec t ord ted PA cement ng 8 1 5 5 5 n LI S ARDOR E ee RD MCI E HERI UR REA E 8 1 5 5 6 Modbus RTU Master mode nennen tutustut tutun tret reete enne teste tns tnnt nest rr enne nnne enne 75 8 1 5 5 6 1 Delay after error in communication with Slave esses nnne 75 8 1 5 5 6 2 Number of read write data blocks cccccccccccccsscsesssssecsssscessssesesesssesssseceesasesssassessesecuesesuseseeaess 75 8 1 5 5 6 3 Response timeout iei Ur HERUM cansa a nad Ge RO PIER EPA RR REA agi SEER 75 8 1 5 5 6 4 Data blocks read Write at nr da o riot 76 8 1 5 5 6 4 1 Modbus Slave ID sis nn e tere n re E ere et ede o E PE E EE eiae 76 8 15 5 6 4 2 Addres
52. V files in the similar format applied in MY Data Provider File creation frequency and managing of free memory space is configurable CSV file creation on the memory card is completely independent from internal logger feature and its data distribution that is configurable by events definition of record and rules sending of stored data blocks 8 1 4 8 1 Use of card Function Data type Range Default value Comments Turns on off copying logger data to memory card function Selection list Yes Copying is enabled No Copying is disabled No N A 63 8 1 4 8 2 Start Function Data type Range Default value Comments 8 1 4 8 3 Period 8 1 4 8 4 Delete data 8 1 4 8 5 Delete data 64 Function Data type Range Default value Comments Function Data type Range Default value Comments Function Data type Range Default value Comments Defines the synchronization point of timer with RTC Time 00 00 23 59 00 00 Each time defined by this parameter the module will always create CSV file with logger data User can define the solid cycle of backup file creations if period parameter will be other than option None Defines time period counted by timer Selection list None 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 data copying function older than Erases files from m
53. a type Range Default value Comments 8 1 6 1 3 Buffer size 88 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 No 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 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 8 1 6 2 Logger Events subgroup contains parameters controlling logger functionality 8 1 6 2 1 Primary Transmission channel Function Data type Range Default value Comments Defines primary transmission channel for logger data Selection list GPRS Logger records are sent using GPRS packet transmission interface Ethernet Logger records are sent using Ethernet interface GPRS N A 8 1 6 2 2 Primary 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 Authorized numbers gt IP list for GPRS t
54. abled in configuration Signal level is quite well Modem is logged in GSM 105 OOOO OOOO OOOO OOOO 2614 12 19 PRG RUN 16 23 68 GSM init Tx Ex O 0000 0000 odo o Ethernet port is enabled but cable is not connected Port 1 and 2 is enabled in configuration but not transmit a data GSM modem is initialized 9 1 3 Binary inputs outputs Indicators of binary inputs and outputs are signaling logical state of all pins on high state off low state I1 I16 0414 12 12 FRO RUM 10 45 10 ETH Lrik E SGH m Pi THEO TxO Fso 0000 OOO OOOO Qi Q12 on pins 11 12 17 Q7 are high state If any pointer from group Q1 Q12 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 are not powered Q pointer is off or are connected directly to ground 9 1 4 Internal program status Indicator of internal program status are signaling tree states 0000 oooo 0000 0000 2814 12 12 PRG RUN 18 15 84 GSM init TxO Expo 0000 0000 oooo o Internal program is running now 106 OOOO OOOO OOOO OOOO 2014 12 12 FFG STOP 18 15 89 GSM init T E ExOo ooo ooo 0000 o Internal program is stopped now OOOO OOOO OOOO 0000 2414 12 12 JPEG WAIT 12 38 23 GSM init T E Ex oooO 0000 0000 o Internal program upload in progress now 9 1 5 Additional status screens Additional status screens can be switch of
55. 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 start from address 1189 and Input register is zeroed after module restart e g power off module update Internal registers to address 1188 are nonvolatile There is possibility to access single bits of Input and Holding Registers or 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 registers is available in Memory map chapter in Appendices 4 3 3 Counters MT 151 HMI is equipped with 16 general purpose internal counters Their purpose is to count pulses understood as binary state changes of any bit available 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 4 3 4 Timers MT 151 HMI module 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 t
56. and analog outputs address space read write Defines address of register from which data block begins 0 8191 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 8 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 in Rules and also trigger record saving and logger transmission 8 1 6 3 1 Number of events Function Data type Range Default value Comments 8 1 6 3 2 Event table I dx Name Triggering bit Triggering edge Write data blocks to logger Trigger logger sending Defines the length of the Event table Number 0 32 0 N A Index number Friendly name facilitating identification of event purpose Max length is 16 characters Defines the bit which state change will trigger event O 65535 or name from bit list see bit list in Appendices 0 gt 1 Trigger event on rising edge 1 gt 0 Trigger event on falling edge 0 lt gt 1 Trigger event on any edge Toggles saving logger data blocks to logger as new record on off on occurring event Default value is x off Toggles sending the logger content on off on occurring eve
57. anufacturers of Pacemakers and in full harmony with results of studies conducted independently by Wireless Technology Research 11 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 11 2 3 Other medical equipment Any radio device including the telemetry module may disturb the work of electronic medical equipment When there is a need of installing telemetry module in vicinity of medical equipment one has to contact the manufacturer of this equipment in order to make sure that the equipment is adequately protected against interference of radio frequency waves RF 11 2 4 RF Marked equipment The restriction against installing telemetry modules in areas marked as radio frequency RF prohibition zones must be unconditionally observed 11 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 113 12 Appendices 12 1 Register of changes v0 19 02 2015 01 16 e Add display menu e Expand GSM diagnostic information s new flags e Opti
58. assword oa Configuration read disable UDP data fram form ti eee a aaa GPRS transmission retries number Transmission timeout ou tele E APRIRE SERIO Ee RE RR EU RERUM UAI LIM SEUS RR aa du ME ent ib M n e DA LL ME 8 1 3 1 8 1 3 2 8 1 3 3 8 1 3 4 Number of SIM cards oco ette ettet ds Use of GPRS ce iz ERU EEUU IEEE URBES Use of SMS asis ee ai gu enam aan im SIM Lose n 8 1 3 4 1 Address IP eerte t e A erae ERE PEA VENE ER EXER kocht 8 1 3 4 2 SIM card PIN NUMBER soi nsnm D 8 1343 APN name essa i te er ei ca eta nb ee HO dete tan A mete temi p tens 8 13 4 4 Authorizations oi er E ERE EE sas DR el hes 8 1 3 4 5 APN Username idu depara iaa ink de p LER e ERR EP REM Ee En LEER HARE sa EA APER Res adiado LION password i Re er bei eie e tie eaten is e Pee videt 8 1 3 4 7 GPRS testing interval ping 8 1 3 4 8 GPRStestinig address plng iet eR RED Qi ye df 6 13 49 ROAMING 35e rtm RIPE S ERREUR ERR ARR QNUM UR TR C dees UR RI ORIS qe SERE EPA Dan LADO 8 1 3 5 dup 8 1 3 5 1 Address IP idus REG WERDE 8 1 3 5 2 SIM card PIN number 8 1 3 5 3 APN HIaIme e edet ecce A E EH Ov e ire t re b n eg 8 1 3 5 4 AUT OZ ON is etn inch etr c ei bte n e ne Qa entre ees 8 1 3 5 5 APN username ern Re np cons cans teen RE NN osa 8 1 3 5 6 AP N password i e ERE da 8 1 3 5 7 GPRS testing interval ping 8 1 3
59. ata 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 I R4 and module s answer will be gt 1FC8 Prefixes can also be used with write commands Command can operate on more than one register Register count can be included in prefix after character denoting data format which is then mandatory For example command D2 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 configuration 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 O bit of HR3 register then sending a command output 1 causes module to write 1 to bit O 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 assi
60. ced in this format text automatically changed for year in four digit notation eg 2013 YY if placed in this format text automatically changed for year in two digit notation eg 13 MM if placed in this format text automatically changed for month eg 07 for January DD if placed in this format text automatically changed for day of month eg 26 Example Parameter is set to Date of measurement YYYY MM DD Macro result is providing today is 26th of July 2013 Date of measurement 2013 07 26 8 1 3 7 6 2 Time format Function Data type Range Default value Comments Defines date format used by time predefined symbolic name Text Letters numerals and special characters max 31 characters HH MN SS In the text user can put any sign combination but predefined with special meaning listed below HH if placed in this format text automatically changed for current hour in 24h format eg 01 MN if placed in this format text automatically changed for current minutes eg 23 SS if placed in this format text automatically changed for current seconds eg 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 8 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 place
61. constant parameter with index set up by value stored in register with address 1028 in holding registers address space Values of trap variables are copied from registers as follows e trapSourceStatus from register address 1030 4 5 trap index 1 in holding registers address space HR1030 e trapSourceValue from register address 1031 5 trap_index 1 in holding registers address space HR1031 e trapSourceType from register address 10324 5 trap index 1 in holding registers address space HR1032 e trapSourcel ndex from register address 1033 4 5 trap index 1 in holding registers address space HR1033 This configuration allows to control from program when trap is send and what information it carries This allows sending data from external sources and using it to trigger traps However it is possible to send only one trap per program cycle Below is sample program controlling trap sending It sends data from external binary inputs up to 16 which are mapped to REG3 register It assumes that names are stored in text table from position 1 to 16 include MT 151 h fdefine INPUT REG REG3 register containing external binary inputs state define LOCAL REG REG4 fdefine MASK REG6 fdefine TRAP STATUS hreg amp 1030 SNMP variables registers define TRAP VALUE hreg amp 1031 fdefine TRAP TYPE hreg amp 1032 define TRAP INDEX hreg amp 1033 fdefine TRAP NAME hreg amp 1034 trap name index IF NOT P1 JMP check there was j
62. creens at any time in given sequence 8 1 4 9 7 1 Chart name Function Data type Chart name visible for 3 seconds when entering chart screen Text 69 Range Letters and numbers maximum 15 characters Default value none Comments Name can be shown again after pressing OK button 8 1 4 9 7 2 Display time Function Sets Chart screen displaying duration in range between 1 to 254 seconds with additional option doesn t show or continuously display Data type Number or List Range Off 1 254 Continuous Default value Off Comments Time settings not affect the buttons control 8 1 4 9 7 3 Data acquisition Function Allows choosing method of providing data Data type Number or List Range Automatic Stores data from pointed register from selected space with fixed interval User All sample values and timestamps are stored in Holding registers address space Data to this registers can be entered manually by external device or by user s program Default value Automatic Comments For details refer to Chart acquisition description located in Appendices 8 1 4 9 7 4 Sample interval Function Sets sampling interval for data points displayed on chart Data type Selection list Range lsec 5 sec 10 sec 30 sec 1 min 4 min 8 min 16 min 32 min 64min Default value 1 min Comments Parameter visible only when Data acquisition parameter is set to Automatic 8 1 4 9 7 5 Register
63. d TCP functions read 1 3 write 5 6 15 16 Description ET Cum an mpmu mm es a CI o meson ON a AA IO S AS ACA PR meis c CAI PO meis m pm o mitem ES CAI mesi EE redes sm uz o msn PCR eee CAI Gae CIO PP emer wem IO PPS yesiewe A mitem o LS eie CA IO P PEU edes CI IO EE etree ws one o mitem E 138 Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 Address ET TETE TT E Ta Ta Tara Meme Description Description tes een le Lun a8 9 fe lr lets teto tate int16 LoHi REG C2 C2 me c2 2 program counter current value 10368 int16 LoHi REG C3 C3 program counter current value 10384 int16 LoHi REG c4 C4 Program counter current value 10400 int16 LoHi REG cs 65 program counter current value int16 LoHi REG C6 C6 program counter current value int16 LoHi REG C7 C7 program counter current value 10448 int16 LoHi REG C8 C8 program counter current value esa 10464 int16 LoHi REG Ti T1 program timer current value ess 10480 int16 LoHi REG T2 T2 program timer current value 656 10496 int16 LoHi REG T3 T3 program timer current value 657 10512 int16 LoHi REG T4 T4 program timer current value 658 10528 int16 LoHi REG T5 T5 program timer current value 659 10544 int16 LoHi REG T6 T6 program timer current value 660 10560 int16 LoHi REG T7 T7 program timer current val
64. data older than 8 1 4 8 5 Delete data when low on memory nennen nnne ener enne nennen nnne 64 81 49 Display iet eed 8 1 4 9 1 Show status screens 8 1 4 9 2 ShoWw WelcoMe Scenic ir FO EESTI ERO ERES Ev ER ER di sap 67 8 1 4 9 3 User screen 6Count enini epp n e rese Dei me Te t Gg n e e tem ER KDE Er ede ere rode 67 8 14 94 Chart COUN Essas e eie een een up ere E E Fre E EEUU Ec Re OE 67 8 1 4 9 5 Welcome Screen celsa da MG cd e CUBE RE EC da AESA RO abis ea dies is 68 E Display time 35 edi e p eb ee t eei o e Da eee ed 68 9 1 4 9 5 2 Tie NN 68 3 1 4 9 6 ser scre ns SCRT 5 285 sade iori erre rri PURI ERE a NIIR PETRO SMA EO Sp osse dies EAE eT da dos 68 8 19 61 Display time 020 tees eset ee ell chy eee E E GM 8 1 4 9 6 2 SHOW Inp ts e eo e e Ee ieee eee ees ERE EUER EE ee 8 1 4 9 6 3 Show outputs i m i at 8 1 4 9 6 4 A o S A Eee Rp CONS e EE e wees TAS ALSO Ln ER ER ERE A taste E ERR RE nade nents 8 1 4 9 7 Charts W s s os e AA vea o eee ie er 8 1 4 9 7 1 Chart name 8 1 4 9 7 2 Display time 8 1 4 9 7 3 Data acquisition er na S e e Wed HH REED E en eee 8 1 4 9 7 4 Sample interval ts ise n 8 1 4 9 7 5 Register sSpace i nica m cett oe re RES EC te EO e ERR RR ee ERU Yu soares da ev Rer Rus 8 1 4 9 7 6 Register address 8 1 4 9 7 7 Data scaling multiplier otro A aa adia Segue lana Se 71 8 1 4 9 7 8 Data scaling divider DS ERR ee CREE RERUMS 71 8 1 4 9 7 9 Data format Lone ic nudis iodo re
65. dees 27 7 2 PORT 2 t RETRAIT DESEE SUIGWONINIGNI RHEIN SEDA 27 FEZ A Transparent mode iai ee a ede ada Secs ER EHE Pe RAR SD AR VAMU DES AE E E eR REM TERIS EA Rod 27 72 2 Modbus RTU Slave mode A a ha OR ERR RENATO 27 7 3 ETHERNET PORT 7 3 1 Modbus TCP Client 7 3 2 Modbus TEP Serven x ie hd iiie e idi a aw da re e d da da Re ea pe RR id da a n 28 7 4 GPRS ZA DUASIM ERR 29 7 5 SNMP 8 CONFIGURATION 31 8 1 PARAMETER GROUPS 8 1 1 Header sso v dea t dace pd andae pai oia ssim MI 8 1 1 1 8 1 1 2 8 1 1 3 8 1 1 4 8 1 1 5 8 1 1 6 8 1 1 7 8 1 1 8 8 1 1 9 Module iii ER CO Ee Ree aer 32 Module type ec mode itt da ei Eo i c Seg n ici aa 32 Module serial number ai oit OR t OR IO n ME RR AVI a 32 Modem firmware version uite HR UE ERR ER HERR UU EROR EHE EL ERES 32 IMELnurmber tme tin tetti Cete t tec detti d t nds Firmware version ii e RR RR RE Ee RUE eq ener D ee UR SERERE ERE el a Configuration file version Configuration identifier eod e e OR e b OU bodies eds Last configuration date ice b RE HE EON MR EUR RETE RES EO de RR Ed eR a Ae 8 1 1 10 Last redding tIme oec erri eir EU ERRARE PARIET YR e SER YER eT FERREUS CNBPANC TIE 8 1 2 1 8 1 2 2 8 1 2 3 8 1 2 4 8 1 2 5 8 1 2 6 8 1 2 7 Devicedentifier aite ia Module Pvt esc cr t tome ttn tin ettet fnis octets hte let teme s Configuration p
66. e IP mask 0 0 0 0 255 255 255 255 0 0 0 0 N A 8 1 5 7 6 Default gateway Function 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 8 1 5 7 7 IP routing table entry count Function Data type Range Default value Comments Sets quantity of numbers that are allowed in Routing table Number 0 8 0 N A 81 8 1 5 7 8 Routing IP I dx Subnet Mask Gateway Index number Defines subnet addresses included in one network area Defines range of authorized IP addresses Defines IP gateway number for entered Subnet 8 1 5 7 9 Authorized IP addresses Authorized numbers comprises lists of Ethernet IP addresses the module can communicate with 8 1 5 7 9 1 Number of IP addresses Function Data type Range Default value Comments 8 1 5 7 9 2 IP I dx Name I P address Protocol Configuration Receiving SNMP Query 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 UDP Communication is carried out using UDP protocol TCP Communication is carried out using TCP protocol Value of this parameter determines whether remote configuration data arriving from selected IP will be ig
67. e and time GSM modem state signal GSM modem activity Tx and Rx program status RUN STOP WAIT NONE Ethernet link status ETH Lnk if Ethernet is turned on and serial ports activity Tx and Rx for active ports only P1 is shown on the picture below OOOO OOOO OOOO OOOO 2614 12 16 PRG RUN 5 30 60 ETH Lnk O GSM init Fi TORO TxO Fx O 0000 8000 oooo e e Current analog inputs status screen presents in engineering units with engineering unit name values measured on analog inputs AI1 AI4 and digital I Os state 0000 0000 numm mu Ali 4668 uH HI2 4668 uH HIS 4668 uH HI4 4668 uH OOOO 9000 0000 dt e Power and voltage analog inputs status screen presents in engineering units with engineering unit name values measured on analog inputs AV1 AV2 mains power supply voltage battery voltage if available and digital I Os state 65 66 0000 OOOO OOOO 0000 Ani z ml Hue z mi Mcc 12 38 U Ubat Ho ACC poco 0000 oooo G o Last two status screens can be turned off in configuration while first one is always available as it provides vital information about module status and or errors User screens User can define three types of screen e Welcome screen optional screen that is displayed during module startup for user defined time It consists of 6 lines of static text 21 signs each Its purpose to provide information about integrator and or technical support contact This screen can present only static text
68. e mentioned above TXT IB272 1 will return text index 1 if 11 is O 0 1 1 and text index 2 if 11 is 1 14 1 2 123 124 0000 OOOO OOOO OOOO MODO 0000 0000 0000 Ii H L1 OFF 11 1 1 1 0H Redi827 Bl Reai8027 1 31 1 Gi B 31 0H 31 2O0FF ooo ooo uis oo00 O00 O00 o 3 On screen editable values mnemonics used before preceded with exclamation mark sign are editable In addition you can limit changes range after a colon sign sign By providing minimum and maximum value separated by semicolon Range applies to actual value of register doesn t depend on presentation format e g as floating point value 2 HR1027 presents and allows to change value in full range of register 1027 from Holding registers address space 14HR1027 10 100 presents and allows to change value in range from 10 to 100 of register 1027 from Holding registers address space BOOO OOOO 0000 0000 li 1 11 0N ooo 0000 0000 0 0 HB48 presents and allows changing sate of Qi output 2000 OOOO OOOO oooO l1 1 11 0N Regd1827 1 GI OFF 0000 0000 0000 o IZTXT HB48 1 presents and allows changing state of Q1 output Output state is presented as text index 1 for value O and index 2 for value 1 IETXT HB48 1 0 1 presents and allows changing state of Q1 output Output state is presented as text index 1 for value O and index 2 for value 1 In addition changes of variable value are limited to range from O to 1 0000 OOO
69. e weight multiplier Function Data type Range Default value Comments Allows for result correction of the flow using multiplication function Number 1 1000 1 The calculated value of the flow is outcome a mathematical operation expressed by the formula y a x b c where y flow value a Impulse weight Multiplier eng units b Impulse weight Divider eng units c Offset eng units Available for Counting input as selection type of Input for I1 I4 8 1 4 1 7 Impulse weight divider Function Data type Range Default value Comments Allows for result correction of the flow using division function Number 1 1000 1 The calculated value of the flow is outcome a mathematical operation expressed by the formula y a x b c where y flow value a Impulse weight Multiplier eng units b Impulse weight Divider eng units c Offset eng units Available for Counting input as selection type of Input for I1 I4 8 1 4 1 8 Offset engineering units 50 Function Data type Range Default value Comments Allows for result correction of the flow by subtracting constant value Number O 1000 0 The calculated value of the flow is outcome a mathematical operation expressed by the formula y a x b c where y flow value a Impulse weight Multiplier eng units b Impulse weight Divider eng units c Offset eng units Available for Counting
70. emory card older than number of selected days Selection list 0 365 0 Value O turn off erasing an old files function when low on memory Erases oldest files from memory card when run out of on the card Selection list Yes Old data files will be erased when the memory card is full No Old data files will not be erased new files will not be created No N A 8 1 4 9 Display MT 151 HMI is equipped with 128x64 graphical panel used for presenting device status and user information in both textual and graphical form User has possibility to add his own textual welcome screen up to eight textual data screens and up to four charts Presented data and text can change dynamically according to changes of register values or bit states All screens change automatically in cycle Status screens change automatically every 10s while display time of the user defined screens is configurable User can also navigate through screens using arrow buttons located on right from screen Pressing ESC button stops automatic screen change mechanism for 5 minutes Below is a description of each screen Start screen After power up the module or upload a new configuration on display is shown startup screen with manufacturer logo and actual firmware version Start screen cannot turned off Status screens In default configuration module presents three status screens e Module status screen presents digital I Os state module dat
71. er Start screen Display time is configurable After Welcome screen module shows Module status screen Function Data type Range Default value Comments Function Data type Range Default value Comments Sets screen displaying duration in range between 1 to 60 seconds Number Lisa BO 1 N A Allows to enter static text shown on display during module is startup Text Letters and numbers maximum 35 characters none A displayed text is brighter if is preceded with exclamation mark Display shows only 21 characters 8 1 4 9 6 User screens SCR1 8 8 1 4 9 6 1 Display time 8 1 4 9 6 2 Show inputs 68 Each from screens consists from max 6 lines to present information like static text or dynamics values from allocated registers Screens are changed in order from SCR1 to SCR8 after showing the Module status screen Switching cycle is looped Continuously displayed screen breaks the loop Arrow keys can switch screens at any time in given sequence Function Data type Range Default value Comments Function Data type Sets User screen displaying duration in range between 1 to 254 seconds with additional option doesn t show or continuously display Number or List Off 1 254 Continuous Off Time settings not affect the buttons control Enables disables showing of binary inputs I1 I16 logical states on this screen If states are presented they consume one of available text lines Se
72. ess using Modbus RTU and TCP functions 2 and 4 e Tanto Description 256 cri cris cria cris cT12 cri1 crio cr cre crz cre crs cra cr3 cra cri CLOCK Synchronous timers flags a per a for 1 program cycle 32 H2 H0 BIN Binary inputs HEiHBHHCHOHHBEAHBHEHB ES as CI A seen Analog input AI1 int16 LoHi measurement engineering units Analog input AI2 int16 LoHi measurement engineering units Analog input AI4 int16 LoHi measurement engineering units Alarm bits for AI1 AI4 analog inputs AIx ABOVE ALM 112 measurement above 20 5mA AI2 Hi AI2 DBD AI2 ABOVE AI2 BELOW AI2 HiHi AI2 LoLo AI1 ABOVE AI1 BELOW AI1 DBD AI1 HiHi AI1 LoLo Analog input AI3 25 400 int16 LoHi measurement engineering units 130 Input registers binary inputs address space read only access using Modbus RTU and TCP functions 2 and 4 Description Alx BELOW measurement below 3 5mA AIx DBD measurement change higher than deadband AIx LoLo LoLo alarm flag AIx Lo Lo alarm flag AIx Hi Hi alarm flag AIx HiHi HiHi alarm flag a Analog input AV1 o asa int16 LoHi AVi raw measurement mV a E Analog input AV2 int16 LoHi AV2_raW measurement mV Analog input AV1 496 int16 LoHi Avi measurement engineering units Analog input AV2 512 int16 LoHi AV2 measurement engineering units Alarm bits for AV1 AV2 analog inputs AVx ABOVE meas
73. est receivers Selection list None or numbers defined in Request receivers None N A Allows entering variable name Object ID for reading in prepared request OID is entry in ASN 1 notation OID should be available in MIB files that can be distributed with SNMP devices Module MT supports only numerical 32 bits variables in answers Integer TimeTicks Gauge Counter Text Numbers and dots max 64 characters max 15 levels None N A 99 8 1 6 6 7 4 5 Destination register address Function Defines first register address in holding space that are stored low 2bytes value of read variable High 2 bytes are stored in next one register In default HR1025 Data type Number Range 1024 8192 Default value 1024 Comments N A 8 1 6 6 7 4 6 Read flag Function Allows to choose from defined list the marker that will be set after receiving an correct answer and saving the result of request in destination register Data type Selection list Range None None selected flag P1 P256 Available marker can be use for programming Default value None Comments Used marker is not automatically reset and requires programming reset One cycle of the internal program is recommended to delay a reset function of the marker after it was set Reset at the same cycle of the program isn t able to trigger a request 8 1 6 6 7 4 7 Error flag Function Allows to choose from defined list the marker that will be set afte
74. eter then the Hi alarm flag is raised The resetting level of this flag depends on Alarm hysteresis engineering units setting 8 1 4 4 9 Lo alarm engineering units Function Data type Range Default value Comments 8 1 4 4 10 LoLo alarm Function 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 raised 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 57 Data type Range Default value Comments Number 32768 32767 32768 If value of analog signal is lower than value of this parameter then the LoLo alarm flag is raised The resetting level of this flag depends on Alarm hysteresis engineering units setting 8 1 4 4 11 Alarm hysteresis engineering units 8 1 4 4 12 Deadband Function Data type Range Default value Comments Function Data type Range Default value Comments Defines in engineering units hysteresis for analog inputs alarms Number O 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 f
75. etry Module MOBI CON MT 151 HMI Copyright O 2015 Inventia Sp z 0 0 v0 19 02 January 16 2015 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 141
76. f in configuration OOOO OOOO OOOO 0000 Ali 4686 un HI2 4688 uH AIS 4688 un HI4 4688 UA 0000 0000 0000 o Measurement values in engineering units on analog inputs AI1 Al4 with the unit name of measure OOOO OOOO OOOO 0000 ALI 2 ml HZ 2 mu Mec 12 358 U Ubat Ho ACC 0000 0000 0000 o Measurement values in engineering units on analog inputs AV1 AV2 with the unit name of measure an actual power voltage and additional battery voltage if connected 9 2 MT 151 HMI Error signaling Despite the efforts of the software developers some operational errors of the module may occur It is often imperative to diagnose and remove the cause of error Error signaling is a tool for solving problems Following the diagnostic information presented on Module Status Screen displayed information or error messages the GSM and GPRS 107 LED indicator are not lighted Error messages are shown in place of signal level indicator 9 2 1 Standard errors LIMDLIL OOOO 0000 0000 2814 12 12 PRG RUN 18 43 49 ETH Lnk E Ho SIM F1 TORO TxO Rx oO oooo EDD 0000 CN No SIM card inserted Dodo OOOO OOOO 0000 2014 12 12 PRG RUN 18 38 41 TxO ExLD DOoDO DIBIDIEI DODO Wrong PIN number to SIM card 2000 OOOO OOOO 0000 2615 61 15 PRG RUN 12 23 45 ETH Lnkn Pi TORO TxO Exp Pz TORO odo 0000 odo o Second attempt to enter the PIN code was failure Enter right PIN code using cellphone Dodo OOOO OOO
77. for information and verification purposes only and thus not available for user configuration 31 8 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 8 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 8 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 8 1 1 4 Modem firmware version Function Displays modem firmware version Data type Text Range N A read only parameter Comments N A 8 1 1 5 IMEI number Function Displays GSM modem IMEI number Data type Text Range N A read only parameter Comments N A 8 1 1 6 Firmware version Function Displays module firmware version Data type Text Range N A read only parameter Comments N A 32 8 1 1 7 Configuration Function Data type Range Comments 8 1 1 8 Configuration Function Data type 2 Range Comments file version Displays version identification of configuration file used for actual configuration Text N A read only parameter Value depends on module firmware version Auxiliary extensio
78. g the directional antenna with high gain may be necessary 4 6 Power supply MT 151 HMI 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 the main one Module has built in battery charger capable of servicing batteries with capacity up to 7Ah Module starts automatic charging the battery if not fully charged For proper charging the battery a power supply with voltage higher than 18V is required Module can be started only if main power supply is present 17 4 7 Enclosure MT 151 HMI 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 5 Connection diagrams This chapter presents recommended wiring of external signals and installation procedure of the components 5 1 Binary inputs Binary inputs I1 I16 in positive logic 19 10 11 112 113 114 115 116 BINARY INPUTS 2 t 11 12 12 13 13 14 4 1 I2 13 M I5 I6 17 I8 ANALOG INPUTS BINARY INPUTS 1 Binary inputs I1 I16 in negative logic 19 10 141 112 113 114 115 16 BINARY INPUTS 2 e 11 12 12 13 13 14 M H 12 13
79. gned 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 1 mttime counter of I1 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 1R132 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 this in turn causes module to send back SMS containing gt mttime input O counter 123 117 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 nj 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 or HB 0 16 n groups of bits Read Write Bit mapping is as follows bits 0 15 corres pond to holding register O bits 16 31 to holding regis
80. hat 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 orindirectly by this document Publisher INVENTIA Sp z o o ul Kulczynskiego 14 02 777 Warszawa Tel 48 22 545 32 00 inventia inventia pl www inventia pl Version 0 19 Warsaw January 2015 MTC Compatibility 0 19 INDEX 1 TELEMETRY MODULE MOBICON MT 151 HMI cscccsssseeecsssccccssssccccsssecccesseecceaseeecuasseseanseceesesseseeoees 9 2 MODULE DESTINATION eere eee store ee soe coenae eurn Ree eie eee eee npo diee suere se eoe ane sda encanta cons ario abastado 9 3 65SM REQUIREMENTS eR 10 4 MODULE DESIGN o PP 11 2 1 TOPOGRAPHEY eod rede decor eh eave duet ei er eine duce tess eR DON ON A 11 42 HARDWARE RESOURCES essa usos 7 2 O a cen etri tete ries 11 42 1 Graphical display ii t d ei et P Io AREE ree HE ET aallea ERR EIE d LATE PER nan FERE du eR Ra 12 4 211 Display merus eicere eie ree a EATER EG 12 22 2 Binaty INPUTS fois sso n tei oe eR ORENSE ER aa aee ae a EHI Pu ye eR mean IE aee eba sd cagar aue 12 4 2 3 Binary oUutDUts i eese tae edes e deua E REAGE SORCERER eade d ay au ea duae eu dana qa da na au 13 424 Analog inputs 4 20ImA uestes dae e t aee ta era de eden aa PAS E RR e a BR Bee aa en RA ee eodera gud 13 4 2 5 Analog inputs 0510V eoi diets piede e R
81. he 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 reception 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 4 1 Dual SIM A slot for Two SIM cards allow installing in MT 151 HMI cards from different providers Second transmission channel is used only when primary fails One GSM connection is supported by the modem in one time Dual SIM function activate automatically when a both SIM cards are selected in configuration Dual SIM logon sequence SIM card in SIM1 slot is used to login attempt Transmission retries are repeated with transmission timeout When all retries failed module is waiting according to wait time after disconnection SIM card in SIM2 slot is used to login attempt Transmission retries are repeated with transmission timeout When all retries failed module is waiting according to wait time after disconnection No Ui A U N HL Cycle is looped until correct login Successful login resets the module counter failed login attempts 7 5 SNMP MT 151 HMI supports SNMP protocol version 1 since firmware version 0 12 0 Module operates as a SNMP agent device which can be polled by server and can
82. hen using the context menu operating directly on Phone list 8 1 3 8 2 Number of IP addresses Function Data type Range Default value Comments 8 1 3 8 3 Phone I dx 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 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 47 8 1 3 8 4 IP Idx Idx Name SI M1 address SI M2 address Protocol Configuration Receiving SNMP Query Index number Friendly name facilitating identification of the receiver while defining Rules Max length is 16 characters 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 Communicatio
83. here are available 16 general purpose programmable asynchronous timers CK1 CK16 These timers start counting when module is powered or reset and they are not synchronized with RTC clock 4 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 the other is carried out by sending from one device group of Holding Registers with data to second 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 the same address Each time when new data arrives MT2MT x bit is set where x is position of sender IP address on receiver authorized IP list 4 3 6 Constant parameters In MT 151 HMI 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 15 4 3 7 System flags MT 151 HMI provides system of various internal flags that inform about module status Most important bits are FS1 acu when set to 1 then battery is connected to module FS1 q when set to 1 then there is no power provided for binary outputs FS1 gprs when set to 1 then module is successfully logged into GPRS network FS1 gsm
84. here the change was detected Ali DB AI4 DB This flag is reset to O after one program cycle Number 0 65535 100 Deadband is very useful for tracking analog signal on server data is send only when analog input changes 8 1 4 4 Analog inputs 0 10V AV1 AV2 MT 151 HMI is equipped with two voltage analog inputs operating in 0 10V range All parameters are set individually for each input 55 8 1 4 4 1 Name 8 1 4 4 2 Engineering Function Data type Range Default value Comments Function Data type Range Default value Comments Friendly name facilitating identification of the analog input task Text Letters and numerals max 31 characters Respectively AV1 and AV2 N A units Allows user to enter unit name for information purpose Text Letters and numerals max 15 characters mV N A 8 1 4 4 3 Low reference internal units Function Data type Range Default value Comments Defines number of mV corresponding to number of engineering units defined by Low reference engineering units parameter Number O 10000 mV O mV Used along with other reference parameters for rescaling input signal to engineering units 8 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 refe
85. hose parameters are counters CNT1 CNT16 8 2 1 Counters CNT1 CNT16 102 Name of resource counters CNT1 CNT16 Data type number Range 2147483648 2147483647 Default value 0 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 JU MTM MT ML Manager General Edit View Transmission Configuration Help wier Gt 22 t Jus Find Favorites Device Tree _ Parameter gg E35 New project E New module MT 151 CNT1 New module MT 151 E Presets CNT2 e CNT3 CNT4 CNT5 CNTG CNT CNT8 CNT9 CNT10 CNT11 CNT12 CNT13 CNT14 CNT15 CNT16 dI New module 9 Problem solving 9 1 Module Status Screen and LEDs Information displayed on LED indicators and OLED Display placed on MT 151 HMI front panel are a great help during module startup and troubleshooting Signalized states are displayed on the Main Module status screen and additional screens as text or graphic information GSM GPRS Status USB connection Module Status screen Additional battery LED Main Power LED Micro SD status LED indicators meaning e GSM indicator is lighted when module is logged into GSM provider e GPRS indicator is lighted only when module is correctly logged to GPRS service e US
86. ices 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 7 3 Ethernet port MT 151 HMI telemetry module is equipped with Ethernet 10Base T 100Base TX port used for communication with external devices MT 151 HMI operates simultaneously as Master and Slave on this port Communication via this port is possible only with devices added to Authorized IP addresses list 27 7 3 1 Modbus TCP Client Modbus TCP Client functionality allows polling 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 matches registers in Holding Registers address space in the 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 HMI 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 HMI can be routed to Ethernet device according to rules defined in Modbu
87. ided by Inventia lists several values of parameter 1 keep alive keepAlive local input locallnput external input extinput voltage analog input analogVoltage current analog input analogCurrent synchronous timer timerSync asynchronous timer timerAsunc counter counter to AN Ot AR WN powering voltage supplyVoltage If Trap data source parameter is set to Registers then Type column is not visible and trapSourceType variable value is copied from register HR1032 5 trap_index 1 97 Index Defines value which is sent as trapSourcel ndex variable This value should provide information about input channel e g 2 for voltage analog input AV2 or binary input number thus allowing to strictly determining source of trap User can set any value from range 0 65535 If Trap data source parameter is set to Registers then Index column is not visible trapSourcel ndex variable value is copied from register HR1033 5 trap index 1 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 Specific ID Triggering bit Triggering edge Trap name Status Value Type Index 1 0 None 0 gt 1 0 0 0 0 8 1 6 6 7 Requests 8 1 6 6 7 1 Number of request receivers Function Defines number of trap receivers max 16 IP addresses of receivers can be added in Request receivers list available when this parameter is gt O
88. input as selection type of Input for I1 I4 8 1 4 1 9 Hi alarm engineering units Function Data type Range Default value Comments 8 1 4 1 10 Lo alarm Function Data type Range Default value Comments Defines Hi alarm level for flow calculation value in engineering units Number 32768 32767 32767 If value of flow calculation value is higher than value of this parameter then the HiHi alarm flag is raised The resetting level of this flag depends on Alarm hysteresis engineering units setting Available for Counting input as selection type of Input for I1 I4 engineering units Defines Lo alarm level for flow calculation value in engineering units Number 32768 32767 32767 If value of flow calculation value is higher than value of this parameter then the Lo alarm flag is raised The resetting level of this flag depends on Alarm hysteresis engineering units setting Available for Counting input as selection type of Input for I1 I4 8 1 4 1 11 Alarm hysteresis engineering units Function Data type Range Default value Comments Defines the hysteresis value for flow alarm threshold The value is set in engineering units Number 0 32767 100 Setting hysteresis relevant for signal fluctuations prevents excessive activation of alarm flags Available for Counting input as selection type of Input for I1 I4 8 1 4 2 Binary outputs Q1 Q12 All parameters
89. ion or can be copied from defined registers from holding registers address space which allows to dynamically assigning data to trap using user program While configuring a trap user defines triggering source of trap Specific ID and values of variables added to trap Server receiving trap after analyzing variables values especially Specific ID can connect trap with its description and present data in propels form Since basic trap types as well as meaning and ranges of variables are predefined in MIB file it is essential that user when configuring traps used proper variable values as makes server configuration much easier Generatin ueries Requests Request is a data packet sent to network device with query of the specific OID variable MT 151 HMI has got possibility to generate 32 variable requests for 16 variable receivers Control of Request sending is managed from internal program Request response has to be in numeric format All SNMP configuration parameters are grouped in SNMP subgroups within Communication group in MT 151 HMI configuration 8 Configuration MT 151 HMI just like other MT devices is configured by using MTManager MTM which is provided for free with all MT equipment MT Manager is an unified program environment that allows setting up and maintaining 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
90. isters 4 22 Del Append 8 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 8 1 6 5 1 Number of rules Function Defines number of Rules to define Data type Number Range 0 32 92 Default value Comments 8 1 6 5 2 Rule 8 1 8 1 8 1 8 1 6 5 2 1 Name Function Data type Range Default value Comments N A Friendly name facilitating identification of the rule Text Letters and numerals max 31 characters Respectively from RULE1 to RULE32 N A 6 5 2 2 Triggering event Function Data type Range Default value Comments Defines event which triggers transmission Selection list None and events defined in Event table None N A 6 5 2 3 Transmission type Function Data type Range Default value Comments 6 5 2 4 Receiver 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 Ethernet Rule triggers sending data using Ethernet interface None SMS Ethernet and GPRS options are visible only when those methods of communication are enabled Defines receiver of SMS or data package depends on Transmission type setting Selection list None and numbers defined in GSM gt Authorized numbers gt Phone li
91. lable bits can be found in Memory map 12 5 User screens programming User screens can present static and dynamic texts which are presented in brighter color Example of the MTManager configuration of User screen and Textual static parameters Parameter Value Display time s Continuous Show inputs Yes Show outputs Yes Line 1 11 IB272 11 4TXT 1B272 1 Line 2 Reg 1027 HR1027 Parameter Value Line 3 QU1IAHB48 Parameter 1 OFF Line 4 Q1 14TXT HB48 1 0 1 Parameter 2 ON and result screen 0000 OOOO OOOO 0000 Ii1 H I1 OFF ReglgZy 1 21 A 11 0FF 0000 0000 0000 0 0 Dynamic texts are 1 Mnemonics used in text messaging SMS which are described in SNCS commands syntax chapter of MT 151 manual Those commands allow to present values of single bits and registers in various forms integer number floating point number hex ASCII encoded text Detailed description is provided in mentioned manual 1B272 will present 1 or O on screen depending on input I1 state 0000 OOOO OOOO OOOO MODO 0000 0000 0000 11 0FF i71 11 0N Re31427 1 Fegigzr 1 o1 al o1 a 01 0FF 11 DFF 0000 dodo 0000 o 0000 0000 dodo o 2 FTXT X Y mnemonics used for inserting texts from Resources gt Constant parameters gt Text list X can be number or SMS like command returning integer value and Y is optional offset provided as static number Command returns text which index is equal to X X Y if Y is used on the pictur
92. lag corresponding to analog input where the change was detected AV1 DB and AV2 DB This flag is reset to O after one program cycle Number 0 65535 100 Deadband is very useful for tracking analog signal on server data is send only when analog input changes 8 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 8 1 4 5 1 Incrementing input 58 Function Data type Range Default value Comments Defines the bit which state change increments counter value by 1 Number or Selection list O 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 8 1 4 5 2 Active edge of incrementing input 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 O to 1 1 gt 0 logical state change from 1 to O 0 gt 1 N A 8 1 4 5 3 Decrementing input Function Data type Range Default value Comments Defines the bit which state change decrements counter value by
93. larm hysteresis engineering units eene nennen nennen nennen nnne 55 8 1 4 3 13 Deadband engineering UNES eii mrt b ing i edebant 8 1 4 4 Analog inputs 0 10V AV1 AV2 ccccsccsssssssecssecsstessnessscesssecseessstecseeesusesueuseseesesesenssenessensesusessessnneeseneeates 3 14 41 N me eie Sra e e E REIR M E OR Ha enel RA ERE E FO e radice E ER idee 8 1 4 4 2 Engineering units triente ce ee eb epu p d ERE 8 1 4 4 3 Low reference internal units 8 1 4 4 4 Low reference engineering units 8 14 45 High reference internal units iit ihe de cm br bete 8 1 4 4 6 High reference engineering units 8 1 4 4 7 HiHi alarm engineering units enne nana na nano nn rnnn nro tents in nenss ient ee nnne sen nnnn een 8 1 4 4 8 Hi alarm engineering units 8 1 4 4 9 Lo alarm engineering units 8 1 4 4 10 LoEo alarm engineering UN sido rir prc rer lr OP HA Ga ca Ss li CR HERES 57 8 1 4 4 11 Alarm hysteresis engineering units eene nennen nenne nennen nennen 58 8 1 4 4 12 Deadband engineering Units eee e ette Eee EE tee Ec a un 58 8 1 4 5 Counters CNT1 CNTZT6 icit E tie bats e eC a EHE ERR io eR HL EXAM CORR HUE ee eR Ede EHE ARE RAF dae Eee pena SE 58 8 1 4 5 1 Incrementing In puts ri cro er A kei QE HA trova 58 8 1 4 5 2 Active edge of incrementing iMput ccccccssscssscesssecsecsesesssesssecsssessseeseeecssecsesessuesseessstessneesenesseseses 59 8 1
94. lection list Range Default value Comments 8 1 4 9 6 3 Show outputs Function Data type B Range Default value Comments 8 1 4 9 6 4 Line 1 6 Function Data type Range Default value Comments Yes Binary inputs state is presented upper terminal lath No Binary input state is not presented Additional line is available for edition Yes N A Enables disables showing of binary inputs outputs Q1 Q12 logical states on this screen If states are presented they consume one of available text lines Selection list Yes Binary inputs outputs state is presented lower terminal lath No Binary inputs outputs state is not presented Additional line is available for edition Yes N A Allows to enter static text and dynamics data links displayed on display in up to 6 lines each 21 characters Text Letters and numbers SNCS syntax maximum 35 characters none Access to line 5 and 6 is available after switching off preview of inputs outputs A displayed text is brighter if is preceded with exclamation mark Display shows only 21 characters More information in User screens programming chapter 8 1 4 9 7 Charts W1 4 Four screens for chart presentation of registers value in time function Screens are changed in order from W1 to W4 after showing the User screens SCRI 8 Switching cycle is looped Continuously displayed screen breaks the loop Arrow keys can switch s
95. loating point value with one decimal place e g 1001 as 100 1 2 decimal place Acquired data will be presented as floating point value with two decimal place e g 1001 as 10 01 Integer 71 8 1 4 9 7 10 Y axis scaling Comments Function Data type Range Default value Comments Parameter visible only when Data acquisition parameter is set to Automatic Allows choosing Y axis method of scaling Number or List Automatic Maximum and minimum value of Y axis is set automatically according to values displayed on chart for best data presentation User Maximum and minimum value of Y axis is set by user defined parameters Automatic N A 8 1 4 9 7 11 Minimum value Function Data type Range Default value Comments Sets minimum value of Y axis Number 320 00 320 00 320 00 Parameter visible only when Y axis scaling parameter is set to User 8 1 4 9 7 12 Maximum value Function Data type Range Default value Comments Sets maximum value of Y axis Number 320 00 320 00 320 00 Parameter visible only when Y axis scaling parameter is set to User 8 1 5 Communication ports Communication ports group contain parameters configuring operation of serial ports Ethernet and routing data between communication interfaces of device 8 1 5 1 Modbus ID Port 1 72 Function Data type Range Defines Modbus ID for internal resources of device on Port 1 Modbus RTU Number O 255 Defa
96. ly synchronize modules real time clock during the first configuration performed using the MTManager program 4 3 Internal resources 4 3 1 Logger MT 151 HMI 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 records as sent In case of overflowing logger the oldest records are overwritten Data from the logger could be stored on the installed memory card MicroSD as separated comma files and transmitted into secondary IP address assigned during configuration 4 3 2 Registers MT 151 HMI module provides access to measurements and other data via 16 bit registers divided into two groups according to Modbus device model Input Registers 14 read only and Holding Registers read write access Remote
97. meter value does not influence communication number of stop bits is automatically chosen according to Parity setting 8 1 5 5 5 Parity Function Data type Range Default value Comments 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 8 1 5 5 6 Modbus RTU Master mode In this mode MT 151 HMI 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 HMI can be routed to Port 1 according to rules defined in Modbus routing table This group provides additional configuration parameters for this mode 8 1 5 5 6 1 Delay after error in communication with Slave Function Data type Range Default value Comments Defines in seconds delay between error in communication and next communication for current Data block Number O 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 8 1 5 5 6 2 Number of read write data blocks Function Data type Range Default value Comments Defines number of data blocks to define Number 0 16 0 N A 8 1 5 5 6 3 Response timeout Function Data type Range
98. meters are available in Transparent mode group Modbus RTU Slave MT 151 HMI 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 8 1 5 6 2 Transmission speed 78 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 8 1 5 6 3 Stop bits Function Data type Range Default value B Comments 8 1 5 6 4 Parity Function Data type B Range Default value E Comments Defines number of stop bits used during communication Selection list 1 2 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 8 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 contains additional communication parameters for this mode 8 1 5 6 5 1 Max data packet size 8 1 Function Data type Range
99. mization in handling of flash memory with additional firmware upload verification e More comfortable format of logger CSV files v0 18 02 2014 12 24 Added new diagnostic commands in Commands mode Added alternative IP address for logger receiver Expand Modbus TCP to GPRS channel Spooler service handling Improved time synchronization functions Added UDP port for event frames receiver Fix in communications statistic Added UTF 8 encoding characters in SMS SMS fragmentation to max 3 messages SMS queue increase to 32 positions v0 17 02 2014 10 24 e Micro SD card handling activation e Changes in measurements method for analog inputs Low and high range value of engineering unit cannot be exceeded e Added reset for HREG registers at startup v0 15 01 2014 05 07 e First released version 12 2 SNCS Simple Name Command Syntax 114 Description of SNCS commands 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 Some commands can be used in device configuration parameters for managing of contents presentation on internal graphics panel Characters with special meaning Starts a command ATTENTION putting two hash signs one after another will prevent module from processing command following it Howeve
100. momentary current consumption the power supply must be capable of delivering gt 2A of current Inappropriate power supply may result in faulty operation or can damage the module 10 4 Binary inputs Input voltage range Input voltage range resistance Input voltage for high state 1 gt 9V or lt 9V Input voltage for low state 0 For binary inputs I 1 116 For binary outputs Q1 Q12 operating in binary input mode 10 5 Binary outputs Maximum output current Voltage drop for 100mA Current in low state 0 10 6 Analog inputs 4 20mA 10 7 Analog inputs 0 10V Maximum input voltage Dynamic impedance typically 197kQ A D converter resolution 12 bits Accuracy 25 C 111 10 8 Drawings and dimensions JUL 112 11 Safety information 11 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 11 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 11 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 m
101. mpled register address space 0 holding registers address space 1 analog inputs address space 5 O Sample taken flag 6 Samplingintervalinseconds Z o o O 7 Reserved for future functionality EEE 9 Reserved for future functionality Reserved for future functionality 10 Newest sample left side of chart value between 32000 and PC Oldest sample suae urs ST ET case TERES ed side of chart value between 32000 and 32000 When Data acquisition parameter is set to User a number of samples are presented as units on axis X In this mode only data registers 10 99 and register responsible for the number of samples 1 presented on screen need to be set When a chart screen is displayed user can press OK button to show the chart name that can be configured The module restarts may cause discontinuity of data acquisition 12 6 Memory map 126 All accessible from remote and by program resources of MT 151 HMI 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 acce
102. n Data type Selection list IP address IP address assigned to device by GSM provider is used as identifier Advantage of the 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 a 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 If you use feature of dual SIM card you should to be sure which SIM card has been used to communicate just right now password Defines the password protecting access to configuration 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 while using
103. n 13th day of each month 8 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 8 1 4 6 2 1 Activating input Function Data type Defines the bit which state turns on bit set to logical 1 or off bit set to logical 0 timer Number or Selection list 61 Range Default value Comments 8 1 4 6 2 2 Reset input Function Data type Range Default value Comments 8 1 4 6 2 3 Timer time unit Function Data type Range Default value Comments O 65535 or name from bit list see bit list in Appendices None 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 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 O 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
104. n User can use the buttons to navigate between screens stop switching the screens or allow editing values of the variables Graphical display has got own menu for a basic functions management 4 2 1 1 Display menu Display menu is shown after pressing OK button for more than 3 seconds Arrow keys allows to navigate between options OK button selects next level ESC backs to previous level Exit is realized after select the proper option or automatically after 60 seconds without any action Main menu Settinas Actions H a Dl t Ex 1 t Main menu options Menu contains options Settings in current version there is no option in these submenu Actions in current version there is available Remove SD card option in these submenu About shown current firmware version and uptime from power on About Module FH 8 19 81 Wrtime 878 Basic information about device Exit close menu 4 2 2 Binary inputs 12 MT 151 HMI telemetry module is equipped with 16 optoisolated binary inputs marked asl1 116 which operate in both positive and negative logic Binary inputs are divided into two groups I1 I8 and I9 116 with separate ground connector for each group Additionally inputs marked as 11 14 can operate in pulse mode with flow scaling function The binary outputs Q1 Q12 can be individually configured to operate as binary inputs however they support only more common positive logic
105. n 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 8 1 1 9 Last configuration date Function Data type E Range 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 8 1 1 10 Last reading time Function Data type 5 Range Comments 8 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 settings General group contains basic configuration and configuration protection parameters 8 1 2 1 Device identifier Function Selects device identifier used which is added to data frames sent by device and then to identify sender by server software e g MTDataProvider 33 Data type Range Default value Comments 8 1 2 2 Module IP Function Data type 5 Range Default value Comments 8 1 2 3 Configuration Function Data type E Range Default value Comments 8 1 2 4 Configuration 34 Functio
106. n decimal format and this value will be put in SMS sent back to user Answer to this command sent back will be 115 116 gt 10 where 10 is value read from holding register 0 If received SMS contains any other characters than correctly formatted commands these characters will be copied unaltered to message being sent back This allows user to freely compose text of return message and include register values together with some informational text For example if user sends containing GSM signal level is 1R132 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 d
107. n 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 Value of this parameter determines whether SNMP request arriving from selected IP will be accepted or ignored Default value x not 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 Name 1 IP G1 SIM1 address SIM2 address Protocol 0 0 0 0 UDP y Y Configuration Receiving Del Ins Append 8 1 4 Resources Group Resources encompasses a list of hardware and software resources available to users 8 1 4 1 Binary inputs I1 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 8 1 4 1 1 Name 48 Function Data type Range Default value Comments Friendly name facilitating identification of the binary input task Text Letters and numerals max 31 characters Respectively from 11 to 116 N A 8 1 4 1 2 Input type Function Data type Range Default value Comments 8 1 4 1 3 Filtering Function Data type Range Default value C
108. n next column is routed to Interface A GPRS All communication from GPRS IP given in next column is routed to Interface A IP address B 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 Idx Name Interface A IP address A Interface B IP address B IP Camera GPRS 87 8 1 6 Communication 8 1 6 1 MT2MT buffer 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 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 a Bit is set where x is position of sender IP address on receiver authorized IP list 8 1 6 1 1 Active 8 1 6 1 2 Buffer address Function Data type Range Default value Comments Function Dat
109. n 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 8 1 3 3 Use of SMS Function Data type Range Default value Comments 8 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 No 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 the upper one 8 1 3 4 1 Address IP Function Data type Range Default value Comments Displays IP address assigned to SIM card placed in SIM holder slot number 1 using if the communication with module has been established earlier on that slot It can be 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 possible using other IP addresses Obviously IP address can be inserted manually to allow access to remote module via that SIM card if is logged 8 1 3 4 2 SIM card PIN number Function Data type Range Default value Comments Defines PIN access code for SIM mod
110. nary outputs with possibility of operation as binary inputs selected independently for each output 4 optoisolated 4 20mA analog inputs 2 optoisolated O 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 Graphical and textual OLED display resolution 128x64 pixels 6 lines 21 characters Diagnostic LEDs Connector for backup power built in battery charger PLC functionality Standard industrial transmission protocols Modbus RTU Modbus TCP SNMP Transparent support and routing 3 years warranty 3 GSM requirements 10 To 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 only module to server communication is possible A good and strong GSM signal in the place where the module s antenna is located is necessary 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 tran
111. nd 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 8 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 8 1 3 7 8 2 Macro table I dx 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 8 1 3 8 Authorized numbers 46 Authorized numbers comprises lists of phone numbers and IP addresses the module can communicate with 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 8 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 w
112. nding on address space to be mapped to registers of module Data type Number Range 1 2040 Default value ES Comments N A 5 7 10 9 Mapped space address Module Function 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 Data type Number Range 0 8191 Default value 116 Comments N A 8 1 5 7 10 10 Mapped space refresh interval Function Data type Range Default value Comments 8 1 5 8 Routing tables Defines in seconds interval between polls of Server resources within data block Data writes are also executed with this interval Number O 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 8 1 5 8 1 Number of Modbus routing table rules Function Data type Range Default value Comments Defines the length of the Modbus routing table Number 0 16 0 N A 8 1 5 8 2 Number of Transparent routing table rules Function Data type Range Default value Comments Defines the length of the Transparent routing table Number 0 4 0 N A 8 1 5 8 3 Modbus routing table I dx Name Interface Index number
113. ne eee ene er o ene ae e dae eu e ea o un eo eu eo uui eia du eh ia un 113 12 APPENDICES iio deck ges aseces sede cdonesotae Ea amu e Eai i dia ve AE is vai os ra ce E ERES 114 12 1 REGISTER go Nei cic dao 114 12 2 SNCS SIMPLE NAME COMMAND SYNTAX oococococococococononacananananana nana na nan tren enne nete tete ri rini si si si si sisi si sisi si saris ananas annua 114 12 3 SNMP TRAP CONFIGURATION EXAMPLE ccccccccccececececececececeeseceeeeeeeeeeeeeeeeeeeeeeeeeeeesesesecesesess cece cece see tenerent 120 12 3 1 Sending traps using internal program esses sees nh nnne nnne ena ra assess aita asas sse ssa aa 120 12 4 LIST ORBITS 53d aoo a Dane dedo Ride 122 12 5 USER SCREENS PROGRAMMING seien eene eene nenne nnn nnn ener eren entren tree teen nisse si ssi sisi sisi sisi siiis ss ausus asas assa aha a aua 123 12 5 1 Chart acquisition description csccccccccessesssssesscesesseassecscessesssaesesscsssessaesecseeeessaaesessceseessasseeseeeeeaaes 125 T2362 MEMORY m 126 12 6 1 Input registers binary inputs address space seen eene enne enne entente nnne 128 12 6 2 Holding registers binary outputs address space ceccccsssceesseessscesssesnsscensecssseessecssssecstecssssessecesess 134 13 ABOUT USER MANUJAL 5 rere es eroe ene e e een seca oae UP ee o Use eaa aee Ve sous vacuous e SEE PEE Ve Te
114. nored 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 Value of this parameter determines whether SNMP request arriving from selected IP will be accepted or ignored Default value Y allowed 8 1 5 7 10 Modbus TCP Client 82 In this group MT 151 HMI can poll for data from and write data to external Modbus TCP Slave devices connected to Ethernet port using Data blocks Polls and writes from external devices communicating with MT 151 HMI can also be routed to Ethernet according to rules defined in Modbus routing table 8 1 5 7 10 1 Delay after error in communication with Server 8 1 8 1 8 1 8 1 Function Data type Range Default value Comments Defines in seconds delay between error in communication and next communication for current Data block Number O 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 5 7 10 2 Number of read write data blocks Function Data type Range Default value 5 Comments Defines number of data blocks to define Number 0 16 0 N A 5 7 10 3 Response timeout Function Data type E Range Default value Comments 5 7 10 4 Ethernet IP Function Data type Range Default value Commen
115. nt 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 1 Binary input 11 Triggering bit Triggering edge Write data blocks to logger Triggering logger sending n M1 Y m 8 1 6 4 Data blocks Data blocks subgroup contains definitions of data which then can be used send using Rules 91 8 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 zu Comments N A 8 1 6 4 2 Data block table I dx Index number Name Friendly name facilitating identification of data blocks 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 1 Counters Holding Reg
116. of intended extent 25 7 3 Inserting the SIM card After downloading the first configuration disconnect the USB and power cables insert the SIM card 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 on main status screen at OLED display More information in 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 Interfaces and communication methods 7 1 Port 1 PORT 1 is an 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 7 1 1 Transparent mode In this mode MT 151 HMI communication from serial port Port 1 is channeled to other communication port or GPRS network according to rules defined in Transparent ro
117. ommand 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 8 1 3 6 2 Wait time after disconnection 42 Function Data type Range Default value Comments Defines interval between GPRS connection attempts Number 0 01 655 350 s 5 00 s N A 8 1 3 7 SMS SMS contains parameters related to sending and receiving of text messages by MT 151 HMI module 8 1 3 7 1 Daily SMS limit Function Data type Range Default value Comments Defines maximum quantity of SMS the module may send during one day The parameter protects against uncontrolled sending of SMS messages and consequent high running expenses Number O 65535 0 Setting this parameter to O removes daily SMS limit 8 1 3 7 2 Number of SMS sending retries Function Data type Range Default value Comments Defines maximum quantity of retries of unsuccessful SMS transmission Number O 255 3 After reaching the defined value the SMS is deleted from sending queue 8 1 3 7 3 SMS limit exceed information Function Data type Range
118. omments Defines binary input operating mode Selection list Binary input Selected terminal operates as binary input Counting input Selected terminal operates in impulse detection mode Binary input According to selected mode MTManager displays additional configuration parameters for inputs I1 I4 Defines in seconds minimum duration of electrical state on the input to be considered stable thereby defining maximum time duration of electrical signal is considered as noise Number 0 01 600 00 s 0 10 s Increasing the value increases noise immunity but delays change detection 8 1 4 1 4 Flow calculation trigger Function Data type Range Default value Comments 8 1 4 1 5 Flow scaling Function Data type Range Default value Comments Selects marker or any bit from module s address space Change of bits state to high initiates flow calculation process Selection list Name from bits list see in Appendices or 1min or 1hour predefined marker Imin Available for Counting input as selection type of Input for I1 14 Selects time reference units for flow scaling Selection list None Defines value increase between next initiations period of flow calculation Minute eng units min Defines value increase per minute Hour eng units h Defines value increase per hour None Available for Counting input as selection type of Input for I1 14 49 8 1 4 1 6 Impuls
119. on Data type Range Default value Comments Defines days of month when timer is active Multiple choice field 1 31 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 it is not then Z O 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 Jun Jul Aug Sep Oct Nov Dec 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 it is not then Z O 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 o
120. oro ere ORO UR HOHER RUE ENG GUN SPORE ORE MOVER 82 9 1 5 7 9 Authorized IP addresses ss mais ipe Ue prep eR ETERNI qe EI RR Ri gre 82 8 1 5 7 9 1 Number of IP addresses eem ie eie i n 82 8 115 7 92 IP 3 eor Oan enti mde Rapida e a e da gear 82 8 1 5 7 10 Modbus TCP Client correnti et i eR n ER RE EXE e LE DER ETE FRE eid ane c poten tees 82 8 1 5 7 10 1 Delay after error in communication with Server nennen 83 8 1 5 7 10 2 Number of read write data blocks esee nnne nnne nnne nnne etn aen nas 83 8 1 5 7 10 3 Response tirmieOUt ads 8 1 5 7 10 4 Ethernet IP uvas Hoe e a iaa ias 8 15 7 10 5 Server Modbus ID 2 o Hd bue sco Debes 8 1 5 7 10 6 Address space in Server 8 1 5 7 10 7 Mapped space address Server 8 1 5 7 10 8 Mapped Spaces uccidere AA d t te ici vti Pr a eee 8 1 5 7 10 9 Mapped space address Module de x 84 8 1 5 7 10 10 Mapped space refresh interval nennen enne nennen nnn nnns 85 8 1 5 8 ROUTINE tdbles o essere rasa E A b bm dye 8 1 5 8 1 Number of Modbus routing table rules 8 1 5 8 2 Number of Transparent routing table rules cccccescessscssecseecseecssecsseecsaeesseesseeesaeeceeesaeesseesenesseeees 85 8 1 5 8 3 MOdbus ro ting table ai es Le eee ec BE a 85 8 1 5 8 4 Transparent routing table iii aaa 86 8 1 6 Commiu nication s toI RU UI 8 1 6 1 MT2MT buffer oh ay Ha SLI A Ga SL 12 ABU AOS 5 ease
121. question Write pending data and remove SD card Remove SD Remove SD Write rFending data Writing data and remove SD card Please wait NO and confirm selection 23 If data has been written R W indicator is switching off for 60 second Using a tool press gently the hidden card in socket until a click heard and release pressure The card will eject and it s ready to intercept by fingers If card won t be removed during 60 seconds will be switch on again 5 9 Power supply Power supply and 12V 7Ah battery backup power Al 1 2 PORT 1 BINARY OUTPUTS INPUTS ACCU DC12 24 lO a ele fee adf Tg 8 18 Pin Group Description Positive pole of mains power supply connector GND Negative pole of mains power supply connector Positive pole of backup battery connector GND Negative pole of backup battery connector Built in battery charger requires power supply voltage higher than 18V 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 24 6 Starting the module First start of the MT 151 HMI 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 Connection diagrams chapter 2 First configuration of the module The scope of first config
122. r CT5 will count up to its threshold and set its flag to 1 Timer5 is the name of a trap Status is set to 7 which according to MIB file means that timer reached its threshold while type set to 6 informs that this timer is synchronous Index identifies which timer it is Trap number 2 informs about alarm on analog input Specific ID 10 alarm on analog input Trap is triggered by activation of LoLo alarm on analog input AV2 Status set to 6 informs that this is LoLo alarm Type set to 4 informs that alarm was triggered on voltage analog input while index points analog input AV2 Value provides information about current value of analog input by addressing its register Trap number 3 is triggered by falling edge on binary input I1 Specific ID set to 30 informs that it is triggered by change of binary input logical state Status set to 9 informs that this binary input was turned off Type set to 2 informs that this binary input is internal module binary input while index points to first binary input 12 3 1 Sending traps using internal program Below is presented sample configuration of three traps with data assigned to trap variables indirectly via holding registers Trap data source parameter is set to Registers TXT 02 120 Trap is defined by e Specific ID it is 30 corresponding to binary input state change e Triggering bit and Triggering edge they point to rising edge of program flag P1 e Trap name it is set to Text
123. r after sending one of hash supported supported signs will be deleted this allows to control resources of one module from another e g set binary output Q1 to 1 O starts a macro a macro supported mM used as first character in SMS text suerte inhibits parsing of SMS PP used as first character in SMS text EN inhibits answering to this SMS SHPPOREH used as first character before starts N A supported command character allow edit a values used after numerical address of a N A supported register allow to set the range of permissible values ex 133 HR1024 10 100 line contents separator right and left N A supported text align 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 Z 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 commands HRO 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 i
124. r of program lines 2160 int16 LoHi executed in previous program cycle PRG CTIME Time of execution of 2176 int16 LoHi previous program cycle ms 256 4096 int16 LoHi PAR 128 Parameter 128 133 12 6 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 Description Reg Bitto 15 14 13 12 12 10 9 8 7 6 5 4 3 2 1 0 HA OHHH Y 2H 9 oo Reserved E PS1 STOP writing 1 E SYS FLG1 stops program O starts program Bits controlling binary outputs Q11 Q10 BOUT 1 output set to high Eao O low level int32 LoHi em 32 bit counter Babi counter register int32 LoHi CNT2 32 bit counter register q int32 LoHi CNT3 32 bit counter register EE int32 LoHi CNT4 32 bit counter register HRS int32 LoHi CNT5 32 bit counter register HIE int32 LoHi CNT6 32 bit counter register 16 256 int32 LoHi CNT7 32 bit counter register mS mato 19 304 int32 LoHi CNT8 32 bit counter register HIE int32 LoHi CNT9 32 bit counter register 134 Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 Address Eolo ala Lao Le Codec cao pem me Description Reg Bitlo 15 14 13 12 11 10 9 8 7 6 5 3 2 1 J o int32 LoHi emos
125. r receive an error answer or error code answer Non existent variable No answer is not signaled Data type Selection list Range None None selected flag P1 P256 Available marker can be use for programming Default value None Comments Used marker is not automatically reset and requires programming reset One cycle of the internal program is recommended to delay a reset function of the marker after it was set Reset at the same cycle of the program could not able to trigger a request 8 1 6 7 Spooler Spooler is a service that can be installed during MTManager installation Spooler is designed mostly to remote management of the battery modules that have sleep functions activated all the time Using Spooler user can change the configuration settings of the module including the new firmware version uploading Devices that are 100 logged into GSM provider all the time can be managed too The most important features are module s time synchronization and possibility for group management of the modules in the same time Spooler requires IIS Internet Information Services installed in the Windows OS system 8 1 6 7 1 Triggering event Function Defines event which triggers transmission a notification to Spooler service Data type Selection list Range None and events defined in Event table Default value None Comments N A 8 1 6 7 2 Transmission channel Function Defines transmission channel for spooler
126. ransmission None N A 8 1 6 2 3 Alternative transmission channel Function Data type Range Default value Comments Defines alternative transmission channel for logger data Selection list GPRS Logger records are sent using GPRS packet transmission interface Ethernet Logger records are sent using Ethernet interface GPRS N A 8 1 6 2 4 Alternative Recipient Function Data type Range Default value Comments Defines IP address which shall receive logger data frames when Primary Recipient is unavailable Selection list None and addresses defined in GSM Authorized numbers gt IP list for GPRS transmission None N A 89 8 1 6 2 5 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 8 1 6 2 6 Number of logger data blocks Function Data type Range Default value Comments Defines the length of the Logger data blocks table Number 0 4 0 N A 8 1 6 2 7 Logger data block table 90 I dx Name Address space Data block address Data block size Index number Friendly name facilitating identification of data blocks purpose Max length is 16 characters 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
127. rence parameters for rescaling input signal to engineering units 8 1 4 4 5 High reference internal units 56 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 O 10000 mV 10000 mV Used along with other reference parameters for rescaling input signal to engineering units 8 1 4 4 6 High reference engineering units Function Data type B 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 other reference parameters for rescaling input signal to engineering units 8 1 4 4 7 HiHi alarm engineering units Function Data type Range Default value Comments 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 raised The resetting level of this flag depends on Alarm hysteresis engineering units setting 8 1 4 4 8 Hi alarm engineering units Function Data type Range Default value 5 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 param
128. request Data type Selection list Range GPRS Spooler request is sent via GPRS packet transmission interface Ethernet Spooler request is sent via Ethernet interface Default value GPRS Comments N A 8 1 6 7 3 Address Function Defines the IP address of the computer running MTSpooler service Data type List of choices Range List of authorized IP addresses Default value None Comments N A 8 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 101 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 HMI module t
129. rer tes te eie ette det d 8 1 6 7 Spooler 8 1 6 7 1 Triggering event 8 1 6 7 2 Transmission chanrel ci t RR p tiet o i vec e a eb eie dues 101 8 1 6 7 3 Address A Tata a UE 101 8 2 S PRESETS iv was erem ter DON COREANO RENT ages eee AERIS AREE Ge pee ordre pel ree EB a CURA DRE Da RAD 101 8 21 Counters LENTE ENT a iii 102 9 PROBLEM SOLVING 2022 0522 103 9 1 MODULE STATUS SCREEN AND LEDS oooocococonononononononononononnnonnnnnnonononnnnnnnnnnnnnnonononononononononononononononanananonananenenoss 103 9 1 1 GSM StOtUS os ie decades sind dee dee eee bed eek e IS eR ane RENA PE REN EE CH ERI 643 dA o bes aaa da dada Bea e oed eo 103 9 1 2 Interfaces activity e c irt Ute b tet ive Re dut 105 9 1 3 Binary INDUS OUT DUES se s st n nee eR Mete n e ed on 106 9TA Interbal program status st Sack wad ene erai eei di etcetera do ERE dete vastus ed dona d dedu 106 9 1 5 Additional status screens essi riia en nana nana sessi anna nana sess sata ada ss A daas assa sa ani 107 9 2 MT 151 AMIERROR SIGNALING is 43 52 5325255255 332 topo da ate eraot rot RE ri 107 9 2 1 Standard error Ss iiie see eene resale ee e aaa een Neko ra aae duae da aa n Re Toad nee a NAC Edo CNE a aa eoe na Us 108 9 3 UNLOCKING THE SIM CARD iia 109 10 TECHNICAL PARAMETERS oret iia eo a a e ER es a RR eek Rue epe e Ne edis secede ee sene SETE e vos vae Po asa pee ESPERE 110 10 1 GENERALE ON 110 10 2 GSM GPRS MOBEM Es emirado
130. s 0000 0000 0000 0000 2615 61 15 PRG RUN 11 39 17 ETH Lnk D SIMI GSH Fi TORO TxO Exp P2 TORO odo 0000 0000 o 0000 0000 0000 0000 2615 61 15 PRG RUN 12 55 87 ETH Lrko Pi TORO TxO Expo P2 TORO 0000 0000 uum i r 0000 OOOO OOOO 0000 2014 12 19 PRG RUM i8 5s Ha ETH Link O X F2 TO R O LILILILI good nooo o GSM login correct GSM LED light on SGN presents high signal strength 0000 0000 0000 0000 mooo ooo 0000 0000 2615 61 15 PRG RUN 2615 61 15 PRG RUN 11 41 57 ETH Lrko 12 52 18 ETH Lnk a SIMI GPRS Fi TO EO SIM2 GPRS Fi TO RO TxO xO P2 TO RO TxO Ex o P2 TO RO odo 0000 odo 0 Hann nooo ooo o o Correct login into GPRS Service GPRS LED light on on current SIM card Pressing OK Button while signal strength bar is visible allow to check which SIM card is in use 9 1 2 Interfaces activity Activity on internal interfaces is shown on Main status screen when specific port is enabled in configuration Short blinks of Tx indicate data packet sending while Rx LED blink indicates reception of data packet OO00 OOOO OOOO 0000 2814 12 12 PRG RUN 16 15 64 GSM init TxO Ex o ooo 0000 0000 O All wired interfaces are disabled in configuration GSM modem is initialized EELDL COMO OOOO 0000 2814 12 12 PRG RUN 10 45 15 OOOO 0080 0000 Ethernet port is enabled and cable is correctly connected Port 1 is enabled and transmits a data now Port 2 is dis
131. s after dot T Textual representation of holding register value only HR low byte max 63 characters Require sign of the end null 0x0000 TXT X Y Read Textual constant parameter value that is defines in configuration branch Resources Constant parameters Text X means index from parameters list value from 1 to 72 It is possible to dynamically substitution of index value taken from internal registers space or bits Y value is optional and define constant offset for index table 118 Bit access to register spaces HB IB Prefix Description B 1 64 Binary format Amount of bits being displayed provided in prefix Bits are presented in order from least to most significant opposite to binary representation of whole register D 1 64 Decimal format Value presented is calculated from amount of bits provided in prefix with bit with lowest address being least significant little endian H 1 64 Hexadecimal format Value presented is calculated from amount of bits provided in prefix with bit with lowest address being least significant little endian Predefined symbolic names ENS TIME Returns local time read from RTC registers DATE Returns local date read from RTC registers Other examples Read Input Registers address 23 1R23 Write value 1 to Holding Register 3 HRO 3 Binary representation of Input Register 17 readout ZB IR17 Read flag bit 4 B 1B17 Write hexadecimal value O
132. s cega NEE A E e E oe 110 10 3 POWER SUPPLY rieke iet re eerte ne eee eee ea Peor ao oae ana a daa aa io Pa aae eo ca as Apa au ko Pss nage daaa na ia e toe reuse a 110 TOA BINARY INPUTS 5 c ento ero e doe oae te ene A Rasta eae dide 111 10 5 S BINARY OUTPUTS a Et RR E eR nn ect E qd e esce dadas 111 10 6 ANALOG INPUTS 4 2O0MAS ER 111 10 7 ANALOG INPUTS O TOV 1 eicere eterne ne ee n e rea re e e n d donde inda Eva ao e o no o e oan do en ab a eh an ei een de era 111 10 8 DRAWINGS AND DIMENSIONS 5 5513 A a dado PARI RETE antas Desde 112 11 SAFETY INFORMATION css os a mostrou A seco SERES ca paro SOUS Ve SEEN EE tone RERS ENSURE S EUN PE Ee SPAN ER PERSE GR 113 11 1 WORKING ENVIRONMENT 5 22 85 ca eto eee ce eee ale queo de d der ee neuen ee eun eo Non en venen diri axe eeu een un ven in Ain in een e en UR PR UA 113 11 27 ELECTRONIC EQUIPMENT 55 12 55 1o a ea Pe eterne eo En ae ee e Rt Rr are CA EA I ARRA eae nba aaa 113 11 2 1 Heart pacemakers inicia de t ed a Bos dede d da ne deed eee ebat de Ro da Se Da vnb he edge ea e LEUR 113 11 2 2 Hearing dids ic o e Meo d Ete d td con t Ne RITORNA oben 113 11 2 3 Other medical equipment esee sissssees seen antena ae reeae antena sess eas sa daas ss acerca nana sans essa ada 113 11 2 4 RF Marked equipment ote o de e RO E C antas A ANT CNE RR RIGEN bs tomas aah daves EAS YER 113 11 3 EXPLOSIVE ENVIRONMENT 55 2 es eren eee ca e eoo e o ar n eo do sai
133. s routing table All those commands are automatically translated to Modbus RTU protocol Modbus TCP Client connects to servers using port 502 7 3 2 Modbus TCP Server MT 151 HMI operates as is server listening on port 502 and waits for Modbus TCP frames It will react on command that are send to ID matching ID of MT 151 HMI 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 parameter section protocol in GPRS 7 4 GPRS 28 MT 151 HMI 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 special mnemonics may be used which are dynamically changed according to value changes in the 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 SNCS Simple Name Commands syntax chapter in Appendices GPRS data transmission allows communicating device with remote server or other device accessible from APN assigned with used SIM card MT 151 HMI is using two protocols for GPRS communication e MT Standard module communicates using t
134. s space in Slave iniit ntaneciaia detailed 76 8 1 5 5 6 4 3 Mapped space address Slave esscsssscsssessseesseeeseecseecescecsneeeseessaeeeseessaeseaeeseneeeeesseessaeesenees 76 8 15 56 44 Mapped space size are Hit e RECORD EBERT aca so Parque NO ag 77 8 1 5 5 6 4 5 Mapped space address Module sess 77 8 1 5 5 6 4 6 Mapped space refresh interval e eene eene enemies 77 8 1 5 5 7 Transparent mode 8 1 5 5 7 1 Max data packet size 8 1 5 5 7 2 Data frame delimitada ka ate ee HERR 8 1 5 5 7 3 Channel reservation time se S pe e sois 28 A O O NA 78 BELO a aia 78 8 1 5 6 2 Transmission Pi cie 78 SIDO StOD Dti A AAA A ihe ened aa 79 S PLAN PMID ia 79 8 1 5 6 5 Trarisparent mode ce em ON 79 8 1 5 6 5 1 Max data packet size 4 dto ad ed eed ce 79 8 1 5 6 5 2 Data frame delimita ER A eee Recs ee ee ges 79 8 1 5 6 5 3 Channel reservation time rees ioui n nnne nnne rare nn aiaiga aiaiai 80 A Ua re REN ae doe e NC ER QE ERE DOR lt n a EXER NEST 80 8 15 71 Use of Ethernet noe ree dpa e ERR HE c eee e BE eere e Terena 80 8 1 5 7 2 Ethernet port speed ie ien RENI BIRD RORIS RR E 80 8 1 5 3 3 Sender IP address control 4i tret tem t eet netto ete ian HM Em ae 80 8 1 5 7 4 IP address 8 1 5 7 5 Subnet mask 8 1 5 7 6 Default gateWay eate cence ene pe ere eno oss TERES e PED eS 81 8 1 5 7 7 IP routing table entry count oe a bes si vty ol 8 1 5 7 8 Routing IP tes
135. smission retries 4 Module design 4 1 Topography Optoisolated analog Optoisolated binary I inputs 4 20mA with inputs that operate in Screens Navigation play programmable alarm both positive and P Buttons N levels and hysteresis negative logic Arrows for switching N ESC stops N switching OK editing values GSM GPRS connection status LED indicators SMA f antenna socket with connected antenna USB port for local configuration and programming E 4 VINPUTS f ni Soo m goose nnnm BEBO NN ons output dedicated for ge Xy OCOWOOOOCOOOOCGCCQOCOQOCQOCUXIGKOQOI S external control panel Optoisolated Analog inputs 0 10V RS 232 485 serial Optoisolated binary with programmable port dedicated for outputs inputs alarm levels and communication with operating in positive hysteresis external devices logic 4 2 Hardware resources 11 116 binaryinputs o Q1 Q12 binary outputs that can operate as binary inputs AIL AlI4 oO O 4 20mA current analog inputs USB port USB port used for configuration programming and diagnostics MicroSD card reader Allows to install MicroSD memory card 11 4 2 1 Graphical display Graphical OLED display and four navigation buttons placed on front panel of MT 151 HMI allow obtaining simple data operation panel Diagnostic information and User defined screens are presented on the module display panel up to 8 textual screens and 4 charts with auto data calibratio
136. ss to the full registers and register groups This difference results in a different way of addressing In the Input Registers and Holding Registers address spaces each address is assigned to the each register while the 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 39 127 12 6 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 Address BR Description 8 7 e6e 5 a s 2 12 o Ella ee oo pps pelado p FS1 acu FS1 usb FS1 sto FS1 new card is installed in slot FS1 acu 1 when battery is connected 3 E E Status flags FS1 fs first program scan FS1 new informs about loading new program FS1 stop 1 when program is stopped
137. st for SMS transmission None and addresses defined in GSM Authorized numbers gt IP list for GPRS transmission None N A 93 8 1 6 5 2 5 SMS text Function Data type Range Default value Comments 8 1 6 5 2 6 Data block Function Data type Range Default value Comments 8 1 6 6 SNMP 8 1 6 6 1 Use of SNMP 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 Parameter 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 Subgroup SNMP contains a list of transmission tasks performed by the module using SNMP Supports Traps and Requests Function Data type Range Default value Comments Turns on off SNMP protocol handling Selection list Yes SNMP is enabled No SNMP is disabled No N A 8 1 6 6 2 Community string read 94 Function Data type Range Default value Comments Password required to access module resources Read only access Text Letters and n
138. t EGO WR NE AAA Aa CAREER STRE 88 8 1 6 1 3 Buffer size i ae m 8 1 62 LOB ER i n rotated emp eet C e de e e des 8 1 6 2 1 Primary Transmission channel cre nennen enne nennen entren nennen nennen 89 8 1 6 2 2 Primary Recipient i iei ERR REEL ERRORES E reb id Diada ias C RRU a d as de ERA DER ere reU aig 89 8 1 6 2 3 Alternative transmission channel e e a nne nette e nennen eren e nenne 89 8 1 6 2 4 Alternative Recipiente ata 89 1 6 2 5 Recipient UDP pott e RI it 90 8 1 6 2 6 Number of logger data blocks tee mtt lera et b enn etg 90 8 1 6 2 7 Logger data block table ssa o ea RET ERR 90 8 1 6 3 EVENTS iiio poe CIRCE AOT EQUO TEE E T a E RETE Ent e PEER Re RARE AUD OOO 91 8 1 6 3 1 Number otitis 91 8 1 6 3 2 EventitaDI Es loli 91 8 1 6 4 Data blocks cri ee RU RU IER EO PRETERITO ER EUER ERN RE URN E 91 8 1 6 4 1 Number of data blocks eris ia 92 8 1 6 4 2 Data block table m 8 1 6 5 RUES n ERES 8 1 6 5 1 Number Of ul vivian hii aedi e eei a exta M eue A b EE ASEE EE 92 8 1 6 5 2 Rule 8 1 6 5 2 1 Name 8 1 6 5 2 2 Triggering event oo NN 93 8 1 6 5 2 3 Transmission Type e E reb ere e EE EFRON E HER EE LEE PRSE a poe Pe Er E e PEE E RET 93 LEBEN RECEIVER E M 93 8 1 6 5 2 5 SMS teXt S e Ee RIEN GUERRE ER ee REP QUE TNR EE M Ra 94 8 1 6 5 2 6 Data block ien iri mie EGER HERR AED ERU ROME IER ESPERE ERES 94 pau
139. t is send to ID matching ID of MT 151 HMI 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 translated to chosen in GPRS parameter section protocol 7 2 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 7 2 1 Transparent mode In this mode MT 151 HMI 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 HMI 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 7 2 2 Modbus RTU Slave mode In this mode MT 151 HMI module acts on this port as Modbus RTU Slave device and awaits for incoming Modus RTU commands It will react on command that is send to ID matching ID of MT 151 HMI 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 dev
140. ter 1 and so on Bit access to input registers space One can access individual bits or groups of bits Read only Bit mapping is as follows bits 0 15 correspond to input register O bits 16 31 to input register 1 and so on IB 0 16 n Register symbols can be preceded by prefixes which can define amount of data being processed and data format Available prefixes Register space HR IR 16 bit registers Prefix escription O Binary format 16 characters bits default bits from most to least significant B 1 4 Prefix can contain register count 1 4 being processed register symbol defines lowest register in resulting string rightmost character corresponds to bit with lowest number Decimal format 1 5 characters unsigned Prefix can contain register count 1 4 being processed register symbol D 1 4 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 Decimal format 1 5 characters with sign when needed signed Access to single register treated as 16 bit signed value Hexadecimal format 4 characters Prefix can contain register count 1 4 being processed returned H 1 4 A string contains n 4 character groups leftmost group correspond to register with lowest address big endian Converts decimal value to floating point number Number next to prefix defines number of digit
141. the Hi alarm flag is raised The resetting level of this flag depends on Alarm hysteresis engineering units setting engineering units Defines Lo alarm level for analog signal value in engineering units Number Range Default value Comments 8 1 4 3 11 LoLo alarm Function Data type p Range Default value Comments 32768 32767 32768 If value of analog signal is lower than value of this parameter then the Lo alarm flag is raised 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 alarm flag is raised The resetting level of this flag depends on Alarm hysteresis engineering units setting 8 1 4 3 12 Alarm hysteresis engineering units Function Data type p Range Default value Comments 8 1 4 3 13 Deadband Function Data type Range Default value Comments Defines in engineering units hysteresis for analog inputs alarms Number 0 65535 100 Setting proper value prevents from turning on and off alarms too often 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 w
142. there a 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 8 1 3 7 7 1 Number of symbolic names Function Data type Range Default value Comments Defines number of user defined symbolic names Number l 32 1 N A 8 1 3 7 7 2 Symbolic name table I dx Symbolic name Address space Index number Friendly name facilitating identification of module resource Letters numerals and special characters max 50 characters Default value is IREGO Binary Inputs Binary inputs address 1XXX read only Binary Outputs Binary outputs address OXXX read write 45 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 Register bit Address of bit or register to which symbolic name is address assigned 0 65535 Default value is 0 8 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 place there a name preceded by sign in SMS text se
143. to engineering units 53 8 1 4 3 6 High reference internal units Function Data type Range Default value Comments Defines number of pA 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 8 1 4 3 7 High reference engineering units 8 1 4 3 8 HiHi alarm Function Data type Range Default value Comments Function Data type Range Default value Comments Defines number of engineering units corresponding to number of HA defined by High reference internal units parameter Number 32768 32767 20000 Used along with other 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 raised The resetting level of this flag depends on Alarm hysteresis engineering units setting 8 1 4 3 9 Hi alarm engineering units 8 1 4 3 10 Lo alarm 54 Function Data type Range Default value Comments Function Data type 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
144. to routing tables 8 1 5 7 2 Ethernet port speed Function Data type Range Default value Comments Enables impose concrete speed on Ethernet port Selection list Auto Port speed is negotiated automatically 10 Mb s Port speed is 10 Mb s 100 Mb s Port speed is 100 Mb s Auto 8 1 5 7 3 Sender IP address control Function Data type Range 80 Switches the control of sender s IP address on off Selection list Yes The module exchanges information only with IP address present on the Authorized IP addresses list Default value Comments 8 1 5 7 4 IP address Function Data type Range Default value Comments 8 1 5 7 5 Subnet Function Data type Range Default value Comments No The module exchanges information configuration responses for queries with any IP address sending qualified query or command In this case the identification of the sender goes by its current identifier Yes Switching the control off enables verification of the sender in the base of its currently assigned identifier other than IP address e g serial number This allows communication among units with dynamically assigned IP addresses within same APN Sender s identifier must reside on Authorized IP addresses list in order to establish the communication 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 modul
145. ts Defines in seconds maximum waiting answer time of TCP server device Number 1 30 1 N A 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 5 7 10 5 Server Modbus ID Function Data type Range Default value Comments Defines Modbus ID of TCP server polling using prepared data block Number 0 250 0 N A 83 8 1 5 7 10 6 Address space in Server 8 1 8 1 8 1 84 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 0XXX 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 5 7 10 7 Mapped space address Server Function Defines address of first resource bit or register depending on address space of data block mapped from Modbus TCP Server to module Data type Number Range 0 65535 Default value 0 Comments setting this value to O disables data block 5 7 10 8 Mapped space size Function Defines number of Modbus TCP Server device addresses bit or register depe
146. ue e 10576 int16 LoHi REG T8 mor timer current 139 Holding registers binary outputs address space read write access using Modbus RTU and TCP functions read 1 3 write 5 6 15 16 Address o E Description Reg Bitt0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 J o 16384 int16 LoHi trapSourceStatus SNMP variable HR1024 wma Cerea purpose 16 bit 1025 16400 int16 LoHi trapSourceValue SNMP variable HR1025 ede purpose 76 pit 1026 16416 int16 LoHi trapSourceType SNMP variable HR1026 ae purpose 167bit 1027 16432 int16 LoHi trapSourceIndex SNMP variable HR1027 E purpose 16 bit 1028 16448 int16 LoHi trapSourceName SNMP variable HR1028 elis purpose 16 bit Ra 18980 int16 LoHi trapSourceStatus SNMP variable used when data source are Registers HR1185 pd purpose Orbit sl 18992 int16 LoHi trapSourceValue SNMP variable used when data source are Registers HR1186 c piUpose dp Dit 1187 19008 General purpose 16 bit register ance e int16 LoHi trapSourceIndex SNMP variable used when data source are Registers HR1188 ae purpose 16 bit int16 LoHi trapSourceType SNMP variable used when data source are Registers HR1187 General purpose 16 bit General purpose 16 bit 8191 131056 int16 LoHi HR8191 register zeroed at reset The bold address numbers means those Registers are nonvolatile 140 13 About User Manual in entia User Manual for Telem
147. ule 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 37 8 1 3 4 3 APN name Function Data type B Range Default value Comments 8 1 3 4 4 Authorization 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 Allow to choose authentication method of PPP protocol Selection list None None authentication method chosen PAP PAP authentication method chosen CHAP CHAP authentication method chosen None 8 1 3 4 5 APN user name Function Data type Range Default value Comments 8 1 3 4 6 APN password Function Data type 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 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 8 1 3 4
148. ult value Comments 1 setting this value to O disables access to device resources from serial Port 1 8 1 5 2 Modbus ID Port 2 Function Data type Range Default value Comments Defines Modbus ID for internal resources of device on Port 2 Modbus RTU Number O 255 1 setting this value to O disables access to device resources from serial Port 2 8 1 5 3 Modbus ID Ethernet Function Data type Range Default value Comments Defines Modbus ID for internal resources of device on Ethernet port Modbus TCP Number O 255 1 setting this value to 0 disables access to device resources from Ethernet port 8 1 5 4 Modbus ID GPRS Function Data type Range Default value Comments 8 1 5 5 Port 1 Defines Modbus ID for internal resources of device for polls incoming via GPRS network Number O 255 1 setting this value to O disables access to device resources from GPRS network Subgroup Port 1 contains configuration parameters of RS 232 485 serial Port 1 8 1 5 5 1 Operating mode Function Data type Range 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 73 8 1 5 5
149. umbers max 31 characters public N A 8 1 6 6 3 Community string read write Function Data type B Range Default value Comments 8 1 6 6 4 Trap handling Function Data type 2 Range Default value Comments Password required to access module resources Read write access Text Letters and numbers max 31 characters private N A Enables or disables traps sending feature Selection list No Traps handling disabled Yes Traps handling enabled No N A 8 1 6 6 5 Request handling Function Data type B Range Default value Comments 8 1 6 6 6 Traps Enables or disables requests sending feature Selection list No Requests handling disabled Yes Requests handling enabled No N A 8 1 6 6 6 1 Number of trap receivers Function Data type E Range Default value Comments Defines number of trap receivers max 4 IP addresses of receivers can be added in Trap receivers list available when this parameter is gt O Number 0 4 0 N A 8 1 6 6 6 2 Number of traps Function Data type 2 Defines number of trap visible to define in Trap table Number 95 Range Default value Comments s o 22 0 N A 8 1 6 6 6 3 Trap data source Function Data type Range Default value Comments 8 1 6 6 6 4 Trap receivers Parameter Value 8 1 6 6 6 5 Trap table Idx Specific ID Triggering bit Triggering edge
150. ump in previous cycle BCPY 0 Pl if yes reset flag JMP end check BXOR INPUT REG LOCAL REG REG5 check if there was change in inputs state NE REG5 0 Pl set flag if there is a change IF Pl JMP select seek for changed bit JMP end select MOVE 0 REG255 loop counter bit index MOVE 1 MASK mask loop BTST REG5 MASK P10 check if this bit was changed F P10 JMP change if yes prepare trap data DD REG255 1 REG255 SL MASK 1 MASK REG255 16 P255 F P255 JMP loop repeat for 16 bits hange OVE 3 TRAP TYPE set trap type to 3 external input DD REG255 1 TRAP INDEX set index of input that triggered trap DD REG255 1 TRAP NAME set index of name of input that triggered trap TST INPUT REG MASK P10 check binary input change slope F P10 JMP one zero ti HOP PRAHA PH 121 BNOT MASK MASK BAND LOCAL REG MASK LOCAL REG zero bit in local copy of inputs status MOVE 9 TRAP STATUS set trap status to 9 off MOVE 0 TRAP VALUE set trap value to 0 JMP end one BOR LOCAL REG MASK LOCAL REG set bit in local copy of inputs status MOVE 8 TRAP STATUS set trap status to 8 on MOVE 1 TRAP VALUE set trap value to 1 end EXT 12 4 List of Bits 122 During its operation MT 151 HMI 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
151. uration of MT 151 HMI is to enter parameters enabling login to GSM network and optionally GPRS network A USB connection to the computer running MTManager program suite has to be established Detailed information on how to install and use the MTManager program is attached in the installation DVD plate 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 if the 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 SI M1 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 These 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
152. urement above 10V AVx BELOW measurement below OV AVx DBD measurement change higher than deadband 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 131 ALM I34 AI4 DBD AI4 LoLo AI3 DBD AI3 HiHi AI3 LoLo AI4 ABOVE AI4 HiHi AI4 BELOW AI3 ABOVE AI3 BELOW ALM V12 AV2 DBD AV1 ABOVE AVi1 BELOW AV1 DBD AV1_HiHi AV1_Hi AV1 LoLo AV1 Lo AV2 LoLo AV2 BELOW AV2 HiHi AV2 ABOVE Input registers binary inputs address space read only access using Modbus RTU and TCP functions 2 and 4 CNT OVFL Counter overflow bits set for 1 program cycle ck2 CK1 Asynchronous timers flags set for 1 program cycle SLx_ok 1 when data block x communication on serial port is OK Program counters Cx C2 overflow flags TSLx ok 1 when data block x communication on Ethernet port is 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 CNT15 OVFL CNT10 OVFL CNT9 OVFL CNT8 OVFL CNT6 OVFL CNT5 OVFL CNT4 OVFL CNT2 OVFL CNT1 OVFL A CK15 CK14 CK13 CK12 CK11 C A ER e Ko Q A 00 CK16 SL10 ok SL2 ok MT2MT 24 MT2MT 8 TSL8 ok ala SL8_ok MT2MT_19 MT2MT_3 TSL3_ok El SL3_ok E CNT3_OVFL MT2MT_18 MT2MT_2 TSL2 ok MT2MT 20 MT2MT 4 TSL4 ok E SL4 ok B MT2MT 17 MT2MT 1 TSL1 ok MT2MT 23 MT2MT 7 TSL7
153. uting table This allows communicating two or more devices with the protocol that is not implemented in MT 151 HMI If module receives on port operating 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 7 1 2 Modbus RTU Master mode 26 In this mode MT 151 HMI 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 them 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 HMI 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 HMI can be routed to Port 1 according to rules defined in Modbus routing table All those commands are automatically translated to Modbus RTU protocol 7 1 2 1 Modbus RTU Slave mode In this mode MT 151 HMI module acts on this port as Modbus RTU Slave device and waits for incoming Modus RTU commands It will react on command tha
154. valid password Selection list Range Default value Comments Yes Reading of configuration from the module is impossible No Module is not protected against reading of configuration No This parameter has no influence on uploading a new full configuration but prevents writing changes if configuration identifier in the module and in MTManager do not match 8 1 2 5 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 sent in form of Modbus RTU command encapsulated in standard UDP data frame Data reception control is not available while using that data frame format MT Standard Detailed description of UDP Standard communication is available upon request from Inventia technical support team 8 1 2 6 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 in a timely manner specified by Transmission timeout parameter Number 0 9 2 Setting the value to O results in sending data without waiting for reception confirmation In normal conditions the value
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