Fleetview-XMT - Socratec Telematic GmbH
Contents
1. OUT 3 QUI 2 OUT 1 LO 30 V DC F p Co HD W HA Olan N OC WO 20 1 Wire PWR 19 DIN 4 18 DIN 3 17 DIN 16 DIN 1 15 AIN 4 14 AIN 3 13 AIN 2 12 AIN 1 LI GND VCC IZ2450 V DC t 3 Figure Special FM4100 version pinout Special FM4100 2x10 socket pinout description EN NENNEN Power supply for module Power supply range 12 30 V DC Energy consumption GPRS 400 mA r m s Max Nominal 150 mA r m s Digital output Channel 3 Open collector output Max 500m A sour ait ouput Channel 4 Open collector ouput Max S00mA as tot Sa 1909 CAN inte Low channel aire DATA Dita channel for Dallas Wie devices This pin is used for connecting external accumulator Seal lead rechargeable 6V only Should be connected to negative pole VCC L0 30 V DC QR GND VCC 10 30 V DC DIN 3 DIN 4 l Wire amp PWR 3 3 V This pin is used for connecting external accumulator Seal lead rechargeable only Should be connected to positive pole Ground pin 10 30 V DC c Digital input channel 3 Digital input channel 4 3 3 V output for Dallas 1 Wire devices max 20mA SS TELTONIKA Technical information Maximum charge curent 300 mA 6V Operating from backup accumulator turns on if external power supply is less then 6 5 V Accumulator is operating up to 5 2 V If accumulator s voltage decrease to 5 1 turns FM4 off Attention it is possible to start FM42. FM4 that are not included in the package 1 Temperature sensor TTJ 101 2 iButton Note the manufacturer does not supply a SIM card in the package which is necessary for connection to the GSM network SIM card can be obtained from your local GSM service provider If any of the components are not in the package please contact the manufacturer s representative or the vendor www teltonika eu 2 3 Basic characteristics GSM GPRS features e Teltonika TM2 quad band module 850 900 1800 1900 MHz e GPRS class 10 e SMS text data e Voice calling GPS features e SirfStarIII 20 channel receiver e NMEA GGA GGL GSA GSV RMC WGS 84 protocol compatible e 159 dBm sensitivity Hardware features e ARM TDMI processor e 1 MB internal Flash memory upgradeable up to 4 MB e Built in CAN BUS support 1939 FMS protocol e Built in 3 axis accelerometer e Internal backup battery included Interface features e Power supply 10 30V e RS232 port e Audio port e 4 digital inputs e 4 analog inputs e 4 open collector outputs e Fuel counter inputs e 1Wire temperature sensor e 1Wire iButton e External battery input e 3 status LEDs Special features e Any element event triggers external sensor input speed temperature etc e Smart profile switching GSM operator or any element dependant e Highly configurable data acquisition and sending e Multiple geofence areas e Sleep mode e Real time process
3. fhe car A fuel tank level sensor exists in most of the cars which shows the approximate fuel level in the driver s indicator panel It is possible to connect FM4100 Analog input if sensor returns analogue signal proportional to fuel leve Figure describes the connection scheme to the FM4100 and fuel tank sensor After the connection to the tank fuel level sensor calibration is needed Calibrations needed due of the fact that most fuel tank sensors are not TANK FUEL linear Calibration As being icd performing by measuring voltage SENSOR dependence on volume of fuel in tank Note Teltonika does not provide any fuel sensors Factory installed or other third party sensors may be used instead Impulse counters Figure describes the connection scheme to the FM4100 Here two pulse meters are used where one is mounted on the direct flow pipe and the other on the return flow pipe Data from both meters is sent to the FM4100 Then FM4100 calculates DIN3 DIN4 Resulting difference equals to fuel consumption Filter should be used on the direct flow pipe to prevent any damage caused by impurities in the liquid The filter mounted in the meter inlet is only a safety filter and it is too small to act as a strainer SS TELTONIKA Fuel meter DIN 4 Retum Flow 12V 24V Direct flow i E eh UVP Fuel Filter RB DIN 3 Fuel meter 8 Figure Pulse fuel meters connection scheme Alarm buttons door se
4. 100 device only from external power supply Only after external supply is off FM4100 is operating from backup accumulator Charge intervals Operating time depends on temperature data sending frequency SMS and GPRS and accumulator age number of charge discharge cycles Approximate time of charging fully discharged 1 4 Ah accumulator 24 C temperature external power 12 v 10 hours Attention FM4100 should be connected only with 6 V Sealed lead rechargeable batteries accumulators Teltonika is not responsible for any harm caused by using wrong accumulator type Power sonic Sealed lead Acid batteries 6V PS 605 0 5 Ah PS 612 1 4 Ah PS 628 2 9 Ah External battery Operation discharge temperature 40 C 60 C check with accumulator datasheet Operation charge temperature 20 C 50 C check with accumulator datasheet Connecting any capacity 6V accumulator due to customer s needs of backup operation time Time of charging the accumulator increases while using the accumulator with higher capacity It is recommended to use accumulators less then 11 Ah capacity SS TELTONIKA 3 3 PORT1 NMEA RJ 45 socket PORT 1 Pin Description Ss TX 8 654321 CIS RTS 4 Figure RJ 45 Socket pinout This port can be used as system port for firmware flashing device configuration viewing log with cable labeled Port1 2 and as GPS NMEA 0183 output with cable labeled Port 3 a
5. 3 24705 Profile s operator search procedure profile 2 i Home network Operator codes 0 24602 1 0 2 0 Roaming network Default profile SMS Operator codes Operator codes 0 24402 0 0 1 24702 1 0 2 25002 2 0 Every 15 min operator scan procedure 16 Figure GSM operator code based profile switching algorithm 5 8 Profile switch depending on I O event Another profile switch method is based on I O event See I O settings for information how to configure FM4 to switch profiles depending on I O elements 10 MOUNTING RECOMMENDATIONS 10 1 Connecting Wires e Wires should be connected while module is not plugged in e Wires should be fastened to the other wires or non moving parts Try to avoid heat emitting and moving objects near the wires e The connections should not be seen very clearly If factory isolation was removed while connecting wires it should be applied again e If the wires are placed in the exterior or in places where they can be damaged or exposed to heat humidity dirt etc additional isolation should be applied e Wires cannot be connected to the board computers or control units 10 2 Connecting Power Source e Be sure that after the car computer falls asleep power is still available on chosen wire Depending on a car this may happen in 5 to 30 minutes period e When module is connected be sure to measure voltage again if it did not decrease e tis recommended to conne
6. AE J1939 CAN interface High channel SAE J1939 CAN interface Low channel Data channel for Dallas 1 Wire devices This pin is used connected with pin ACUM 2 Function of those pins is to disconnect the internal accumulator during shipment or storage When ACUM 1 and ACUM 2 are connected the internal accumulator is on while disconnected the internal accumulator is off This pin is used connected with pin ACUM 1 Function of those pins is to disconnect the internal accumulator during shipment or storage When ACUM 1 and ACUM 2 are connected the internal accumulator is on while disconnected the internal accumulator is off Ground pin 10 30 V DC Analog input channel 1 Input range 0 30V DC Analog input channel 2 Input range 0 30V DC Analog input channel 3 Input range 0 30V DC Analog input channel 4 Input range 0 30V DC Digital input channel 1 Digital input channel 2 Digital input channel 3 Digital input channel 4 3 3 V output for Dallas 1 Wire devices max 20mA gt i Ext accumulator ET Ext accumulator Ext accumulator Ext accumulator There is special version of FM4100 which allow to connect additional external backup battery This device version should be purchased by special order Contact sales manager for details Special FM4100 version 2x10 socket pinout shown on 3 Figure Special FM4100 version pinout wow 1 Wire DATA CAN LOW CAN HIGH OUT 4
7. G WIRES CONNECTING POWER SOURCE CONNECTING IGNITION WIRE CONNECTING GROUND WIRE CONNECTING ANTENNAS MODULE INSTALLATION 11 CHANGE LOG 63 64 64 64 64 65 65 65 65 66 66 66 66 67 68 68 68 68 68 69 70 1 INTRODUCTION 1 1 Attention Do not disassemble the device If the device is damaged the power supply cables are not isolated or the isolation is damaged before unplugging the power supply do not touch the device All wireless data transferring devices produce interference that may affect other devices which are placed nearby The device may be connected only by qualified personnel The device must be firmly fastened in the predefined location The programming must be performed using a second class PC with autonomic power supply The device is susceptible to water and humidity Warning If wrong accumulator is used the device may explode Any installation and or handling during a lightning storm is prohibited Please use cables provided with FM4100 device Teltonika is not responsible for any harm caused by using wrong cables for PC lt gt FM4100 connection 1 2 Instructions of safety This chapter contains information on how to operate FM2200 safely By following these requirements and recommendations you will avoid dangerous situations You must read these instructions carefully and follow them strictly before operating the device The device uses a 10V 30V DC power suppl
8. GETWEEKTIME 49 7 3 GETOPS 49 7 4 GETCFGTIME 49 7 5 GETGPS 50 7 6 LOADPROFILE 50 7 1 GETVER 50 7 8 GETSTACK 50 7 9 GETIO 50 7 10 GETINFO 51 7 11 READIO 51 1 12 7 13 7 14 7 15 SETDIGOUT GETPARAM SETPARAM FLUSH 4 4 8 PARAMETER LIST 8 1 8 2 8 2 1 8 2 2 8 2 3 8 24 8 2 5 8 2 6 8 3 8 3 1 8 3 2 8 3 3 8 34 8 3 5 8 3 6 8 3 7 8 3 8 8 3 9 8 3 10 8 3 11 8 3 12 8 3 13 8 4 8 4 1 8 4 2 8 4 3 8 4 4 8 5 8 5 1 RA 8 5 3 8 5 4 8 5 5 8 5 6 8 6 8 6 1 8 6 2 8 6 3 8 6 4 8 6 5 8 0 6 8 6 7 8 7 8 7 1 S E 8 7 3 8 7 4 8 7 5 8 8 8 8 1 8 8 2 8 8 3 8 8 4 8 8 5 PARAMETERS VALUE TYPES GLOBAL PARAMETERS Profile switch ID 100 Microphone level ID 101 Speaker level ID 102 Call number ID 103 Call trigger ID 104 Record search ID 105 DATA ACQUISITION AND SENDING PARAMETERS Time based acquire interval ID 11 Distance based acquire interval LD 1 2 Angle based coordinate acquisition ID 13 Data Send interval ID 270 Minimum records number in packet ID 232 GPRS Enable ID 240 GSM Operator list ID 277 GPRS Data send week time schedule ID 272 SMS Data send week time schedule ID 273 Schedule parameter format SMS Data send allow ID 250 SMS Send Timeout ID 251 24 Records time step ID 274 SMS SETTINGS AND PARAMETERS SMS User login ID 252 SMS User password ID 253 Server Number ID 260 Authorized Number 1 ID 267 GPRS ACCESS AND ADDRESS SET
9. PRS mode is most preferred data sending mode SMS mode is mostly used in areas without GPRS coverage or GPRS usage is too expensive GPRS and SMS settings are described in GPRS section FM4100 communicates with server using special data protocol Data protocol is described in FM Protocols document FM4100 can be managed by SMS commands SMS Command list is described in SMS Cpmmand List section Module configuration can be performed over TCP or via SMS Configuration parameters and modes are described in FM Protocols document 5 2 Sleep mode FM4 can enter sleep mode standby mode under two conditions e F M4 does not detect movement Accelerometer has to be configured properly so it provides correct indication about movement Usually most sensitive settings are used See accelerometer settings in chapter 6 for more details e FM4 does not send or receive any data for 5 minutes This means that if coordinate recording interval is more frequent than 5 minutes FM4 will never go to sleep mode FM4 can exit sleep mode under three conditions e F M4 detects movement Again accelerometer has to be configured properly e Event or request forces FM4 to make a record While in sleep mode FM4 sets GPS receiver to sleep mode therefore it does not record or send any data The power usage also decreases allowing to save vehicle battery 5 3 Accelerometer FM4 has a built in 3 axis accelerometer which allows FM4 to indicate if vehicle is
10. Socratec Telematic GmbH gt A socratec Satellite Telematic Solutions Fleetview XMT System Manual We reserve all rights in this document and in the information contained therein Reproduction use or disclosure to third parties without express authority is forbidden O 2011 Socratec Telematic GmbH Guido Hollenstein SY 11 002 SystemManual XMT db odt Page 1 27 Contents 1 INTRODUCTION 5 1 1 ATTENTION 5 1 2 INSTRUCTIONS OF SAFETY 5 1 3 LEGAL NOTICE 6 1 4 ABOUT DOCUMENT 6 2 BASIC DESCRIPTION 7 2 1 PACKAGE CONTENTS 7 22 ADDITIONAL ACCESSORIES 7 2 3 BASIC CHARACTERISTICS I 2 4 MECHANICAL FEATURES 9 3 CONNECTION PINOUT ACCESSORIES 12 3 1 LED STATUS 12 32 SOCKET 2X10 13 3 3 PORTI NMEA 16 3 4 AUDIO 16 3 5 ACCESSORIES 16 4 FIRMWARE 21 5 OPERATIONAL BASICS 23 35 OPERATIONAL PRINCIPALS 23 D SLEEP MODE 23 5 3 ACCELEROMETER 23 5 4 VIRTUAL ODOMETER 24 5 5 VOICE FUNCTIONALITY 24 5 6 PROFILES 24 5 7 PROFILE SWITCH DEPENDING ON GSM OPERATOR CODE 25 5 8 PROFILE SWITCH DEPENDING ON I O EVENT 26 6 CONFIGURATION 27 6 1 CONFIGURATOR 27 6 2 GLOBAL PARAMETER SETTINGS 30 6 3 TEMPERATURE SENSORS 30 6 4 SYSTEM SETTINGS 31 6 5 GPS SETTINGS 32 6 6 GEOFENCE SETTINGS 33 6 7 GSM SETTINGS 35 6 8 GPRS SETTINGS 35 6 9 SMS SETTINGS 35 6 10 SEND PARAMETER SETTINGS 36 6 11 ACCELEROMETER 37 6 12 I O SETTINGS 37 6 12 1 Monitoring 40 6 12 2 Event Generating 40 6 13 CAN SETTINGS 42 7 SMS COMMAND LIST 47 7 1 GETSTATUS 49 12
11. TINGS APN Name ID 242 APN username ID 243 APN Password ID 244 Data send protocol ID 231 Server LP address ID 245 Server port number ID 246 GEOFENCE ZONES SETTINGS AND PARAMETERS GeoFence border width ID 20 GeoFence Zone 1 Configuration Parameter LD 30 GeoFence x1 ID 31 GeoFence y1 ID 32 GeoFence x2 ID 33 GeoFence y2 ID 34 All the rest zones SYSTEM PARAMETERS Voice Call Auto Answer after rings ID 230 Device Power mode ID 0 GPS Enable ID 10 Profile name ID 710 Sleep mode LD 000 IO PROPERTIES IO O property parameter ID 300 IO 0 priority 1D 301 IO 0 High level ID 302 IO 0 Low level ID 303 IO O0 logic operand ID 304 51 51 22 52 53 53 53 53 53 53 53 54 54 54 54 54 54 J3 25 29 55 56 56 56 56 56 57 37 oy 2 24 27 58 58 58 58 58 58 59 59 59 59 60 60 60 60 61 61 61 61 61 62 62 62 62 62 65 63 8 5 6 8 9 8 9 1 ro IN 020 7 8 9 4 8 9 5 8 10 8 10 1 8 10 2 8 10 3 8 10 4 8 10 5 IOSO averaging length 1D 305 CAN FMS INTERFACE PARAMETERS CAN Baud Rate ID 600 CANTO Element Id type ID 610 CANTO Data mask ID 61 1 CANTO Identifier ID ID 61 2 CANTO Identifier Mask ID ID 613 ACCELEROMETER PARAMETERS Delta X ID 281 Delta Y ID 282 Delta Y ID 283 Start timeout ID 284 Stop timeout ID 285 9 DEBUG MODE 10 MOUNTING RECOMMENDATIONS 10 1 10 2 10 3 10 4 10 5 10 6 CONNECTIN
12. between coordinates that it records using time distance or angle change intervals Instead it uses virtual points which are established every second and calculates distance between them 5 5 Voice functionality FMA has functionality to receive and make voice calls To enable this functionality telephone handset with electret microphone and RJ 11 connector must be connected to Audio port Configuration parameters are described in Global parameters In GSM Settings main configurator menu number of rings after which FM4 will automatically answer incoming call must be set 0 auto answer is disabled Auto Answer must be configured in all operating profiles When FM4 receives incoming call it triggers DOUT4 be sure no unassociated external equipment is connected to this output 5 6 Profiles FM4 has 4 profiles saved in Flash memory of the module Every profile has a list of parameters which enables FM4 to operate in different modes while using different profiles The easiest way to understand what is profile is to compare it to a list of instructions that are written for different cases You are allowed to setup up to 4 different module behaviors Global parameters contain settings that are common for al 4 profiles This means that if you set FM4 to call to predefined number you will be able to call it while using any profile Basic scheme of Global parameters and profiles is shown below According to the scheme every
13. ct to the main power cable in the fuse box 10 3 Connecting Ignition Wire e Be sure to check if it is a real ignition wire power does not disappear while starting the engine e Check if this is not an ACC wire when key is in the first position most electronics of the vehicle are available e Check if power is still available when you turn off any of vehicles devices e Ignition is connected to the ignition relay output As alternative any other relay which has power output when ignition is on may be chosen 10 4 Connecting Ground Wire e Ground wire is connected to the vehicle frame or metal parts that are fixed to the frame e If the wire is fixed with the bolt the loop must be connected to the end of the wire e For better contact scrub paint from the place where loop is connected 10 5 Connecting Antennas e When placing antennas avoid easily reached places e Avoid GPS antenna placement under metal surfaces GSM antenna must be placed with as little metal obstacles around it as possible e Avoid placing GSM antenna near car radio speakers or alarm systems SS TELTONIKA GPS antenna must be placed so its state is as horizontal as possible if antenna is leant more than 30 degrees it is considered incorrect mounting GPS antenna cable cannot be bent more than 80 degrees GPS antenna must be placed sticker facing down CORRECT NOT CORRECT It is recommended to place GPS antenna behind dashboard as clo
14. ected to the GPRS Modem LED is blinking every second 100m LOW 1000me When device is not connected to GPRS Modem LED is blinking every 5 seconds 100m E LO amm E Status LED When device has uploaded firmware Status LED should blink If LED does not blink it means that device does not function NCG FE ii_ _enpivccioss0yv DOC eJ am p oma 1 1 1 ES KM EM EH E 3 2 Socket 2x10 Standard FM4100 2x10 socket pinout shown on 2 Figure Standard FM4100 2x10 socket pinout ACCUM 2 ACCUM 1 1 Wire DATA CAN LOW CAN HIGH OUT 4 OUI 3 OUT 2 OUT 1 10 30 V DC e RN We O1 eo N Cc LO 1 E 1 Wire PWR 3 3 V H E DIN 4 E H DIN 3 H H DIN 2 H EH DIN 1 E H AIN 4 H EH AIN 3 E AIN 2 H AIN 1 E GND VCC 12 30 V DC 2 Figure Standard FM4100 2x10 socket pinout Standard FM4100 2x10 socket pinout description OUT 1 Ext accumulator Ext accumulator 1 Wire PWR 3 3 V Pin pap 1 VCC 10 30 V DC Power supply for module Power supply range 12 30 V DC Energy consumption GPRS 400 mA r m s Max Nominal 150 mA r m s Digital output Channel 1 Open collector output Max 500m4A Digital output Channel 2 Open collector output Max 500m4A Digital output Channel 3 Open collector output Max 500m4A Digital output Channel 4 Open collector output Max 500m4A S
15. includes larger coordinate recording intervals packets with greater number of coordinates sending and in some cases GPRS context available only for certain time interval Profile 3 should not allow GPRS transfer at all and should only send few position SMS with coordinates just to have basic idea where vehicle is located Profile 4 is not used 1 Re 3 Me 4 DE ile 5 L L ork at prof ponot pro r2 nervor profi network Hors und Roam poke 2 yack pracrind orains only jiu mpl C ec peal LIL S Dat a gum 0min omin ind E nd pco unes PR 119 E manat ing sue sen copa ge ecard penin niy few min min Allowed oe day 15 Figure Roaming application profile configuration example Find profile switching diagram below In the example FM4 connects to operator with code 24702 It checks profile 1 operator list but there is only one operator code entered which does not mach The it checks profile 2 list This code is entered there so FM4 switches to profile 2 If profile 2 would not contain this operator code then FM4 would switch to profile 3 which is default profile for FM4 Note that FM4 does not read operator codes entered in profile 3 instead it uses this profile if currently used operator code is not listed in profile 1 or 2 Profile 4 is not used in this scenario and can only be used when FM4 encounters a panic priority event see event configuration for more details Current operators 24701 24702 2470
16. lobal Positioning System e GSM Global System for Mobile Communications e SMS Short Message Service e AC DC Alternating Current Direct Current e Record AVL data stored in FM4100 memory AVL data contains GPS and I O information e AVL packet Data packet that is being sent to server during data transmission AVL packet contains from 1 to 25 records 2 BASIC DESCRIPTION FM4100 is a terminal with GPS and GSM connectivity which is able to determine the object s coordinates and transfer them via the GSM network This device is perfectly suitable for applications where location acquirement of remote objects is needed It is important to mention that FM4100 has additional inputs and outputs which let you control and monitor other devices on remote objects 1 Wire interface for Dallas digital thermometer or I Button reader and CAN interface integrated for trucks FMS interface data acquisition It also has a RS232 port for NMEA output and configuration also it could be used for peripheral devices communication with special firmware 2 1 Package contents The FM4100 device is supplied to the customer in a cardboard box containing all the equipment that is necessary for operation The package contains 1 The FM4100 device Input and output power supply cable with a 2x10 connection GPS and GSM antennas Port 1 2 and Port 3 cables oo ae 2 2 Additional accessories There are two accessories available for
17. monitoring e Authorized number list for remote access e Firmware update via GPRS or RS232 port e Configuration update via GPRS SMS or RS232 port e TCP IP or UDP IP protocol support e 7500 record storing upgradeable up to 30000 e Robust aluminum case 100 x 85 7 x 36 9 e CE and e mark certified SS TELTONIKA 2 4 Mechanical features Navigation LED All the dimensions in millimeters tolerance 0 5 mm OR SS TELTONIKA All the dimensions in millimeters tolerance 0 5 mm 1 Figure FM4100 drawing amp spec two enclosures Power supply 12 30 V DC 12W Mas Energy consumption GSM antenna connector SMA GPRS 250 mA r m s Max GPS antenna connector SMA Nominal 110 mA t m s Tyco Multi Lock I O MK II C Sleep 99 45 mA r m s Socket 2x10 175975 Operation temperature GSM SIM card socket GNE CIS PORT Storage temperature 1 NMEA RS AGE Ser 40 C 70 C AUDIO RJ11 4 pin socket Relative humidity 5 95 SS TELTONIKA 3 CONNECTION PINOUT ACCESSORIES 3 1 LED status Navigation LED When GPS signal is not recetved or GPS signal is not accurate the Navigation LED is blinking as follows 100ms i Jill LOW 200ms When accurate GPS signal is received the Navigation LED is blinking as follows 100ms 1000ms When Navigation LED 1s off that means that a short circuit occurred in GPS antenna or connector Modem LED When device is conn
18. moving or not as well as measure acceleration Accelerometer sensitivity can be configured it has 5 ongoing parameters Delta X Y and Z define angles in 3D space and start stop timeouts define time intervals in milliseconds To indicate that vehicle is moving FM4 constantly checks for angle change greater than the one defined in Delta X Y or Z fields If angle keeps changing for defined time interval in Start Move Timeout field then vehicle is considered as moving Same settings for idle indication apply if angle change is less than the one defined in appropriate field for time interval defined in Stop Move Timeout field then vehicle is considered as idle not moving For best effect it is recommended to set accelerometer to highest sensitivity see picture below for sample values Accelerometer 13 Figure Accelerometer settings 5 4 Virtual odometer Virtual odometer is used to calculate traveled distance in FM4 as a separate I O element When FM4 detects movement it starts counting distance using GPS signal every second it checks current location and calculates distance between current and previous point It keeps adding these intervals until it is time to make a record then FM4 records its location and adds odometer value which is equal to the sum of all distances measured every second When record is made odometer resets to zero and distance calculation starts all over again Note that FM4 does not measure distance
19. nsors etc Alarm buttons door sensors ignition etc return two states high or low voltage Digital inputs should be used to read this information Figure below shows how to connect alarm button door sensor etc i Ria cl lel RG l FM4100 module Panic Socket 2x10 button Switch etc Digital input p 10 30 V 9 Figure Panic button connection In cases when sensor output signal is negative an additional relay has to be installed to convett negative signal to positive positive signal 12 24 V negative signal source FM2 FM4 DIN 10 Figure Inverting relay connection Immobilizer relay When connected a shown below FM4 disables engine starter when output is ON More details about relays can be found below SS TELTONIKA 11 Figure Immobilizer relay connection Relays A simple automotive relays is used to invert input signal or to immobilize engine starter Note that they are available as 12 or 24 Volt 12 Figure Relay pinout 5 OPERATIONAL BASICS 5 1 Operational principals FM4100 module is designed to acquire records and send them to server Records contain GPS and I O information Module uses GPS receiver to acquire GPS data and is powered with 3 data acquire methods time based distance based angle based methods Method s details are described in GPS section All data is stored in flash memory and later can be sent via GPRS or SMS channels G
20. profile has a list of parameters Global parameters are common for all profiles Switching between profiles changing behavior can be performed by Profile switch depending on GSM operator code mostly used for roaming applications or by Profile switch depending on I O event on I O value changing Global parameters 14 Figure FM4100 profile structure Profile 3 is default profile for FM4 It is always loaded on first startup and further profile switching is proceeded after operator scan or I O element change Profile 4 is panic profile for FM4 FM4 can only switch to this profile if panic priority event is detected see event configuration There is only one way to exit profile 4 send a special SMS command see SMS Command List All records sent while using profile 4 are marked as high priority records 5 7 Profile switch depending on GSM operator code GSM Operator code profile switching is mostly used in roaming applications when the purpose is to have information from module both from Home and Roaming operator network for reasonable price This method allows you to define different module behavior in Home network Roaming network and unknown operator areas See figure below for details Profile 1 is configured for home network Data acquisition and send intervals are quite frequent here To make profile use effective it is wise to set more optimized parameters in roaming profile Profile 2 this usually
21. se to the window as possible A good example of GPS antenna placement is displayed in a picture below area colored green 10 6 Module Installation Module should not be seen or easily reached Module should be firmly fixed to the surface or cables Module cannot be fixed to heat emitting or moving parts SIM card should be inserted in the module while the connector is plugged off while module has no power 11 CHANGE LOG number 1 086025 21 62 chapter revised 2 080819 022 Major tevision 0000 3 080030 23 SS chapteradded 00 4 08100 24 J J d4chaptrrvied 6 081031 26 3 5 chapter revised immobilizer relay connection scheme added 3 5 chapter revised added inverting relay 7 081111 2 connection scheme Moved parameter and property list from Protocols document to User Manual Fixed setparam and getparam command 081218 2 8 description sleep mode conditions voice functionality Updated mounting recommendations
22. t 4800 baud rate 3 4 Audio RJ 11 socket AUDIO PORT Pin Mic Signal Speaker Out 2 Speaker Out 1 Mic GND 5 Figure RJ 11 socket pinout 3 5 Accessories Note Teltonika doesn t provide any additional equipment like panic buttons door sensors or other except of 1 wire devices TTJ 101 thermo sensor and I Button These devices aren t included in FM4100 package and can be offered by special order only 1 Wire devices One of the FM4100 features is realized 1 Wire data protocol which enables connection of up to three thermometers DS1820 DS18S20 and DS18B20 and I Button DS1990A Figures 6 and 7 show FM4100 and 1 wire devices connection schemes Left row of pins Connected through 100 Ohm to 1 on right row FM4100 20 pin Data to 1 Wire Dallas 2 FM4100 8 pin GND FM4100 11 pin Digital Input na Bite je thermometer DS1820 Late thermometer D51820 Right row of pins Vpp 5 Volts DC power source for 1 E external digital 2 sensor Output from external digital sensor 6 Figure Digital thermometer DS1820 and TT 100 connection scheme rMal 0 module Socket 2x10 GHD I I I I 4 Wire data j BATA I I I Le e me mee i mm SS e j K Button T 03193990A A 7 Figure Digital key I Button DS1990A connection scheme Fuel Tank sensors Fat of
23. y The nominal voltage is 24V DC The allowed range of voltage 1s 10V 30V DC power not more than 12 W To avoid mechanical damage it is advised to transport the FM4100 device in an impact proof package Before usage the device should be placed so that its LED indicators are visible which show the status of operation the device is in When connecting the connection 2x10 cables to the vehicle the appropriate jumpers of the power supply of the vehicle should be disconnected Before dismounting the device from the vehicle the 1x6 connection must be disconnected The device is designed to be mounted in a zone of limited access which is inaccessible for the operator All related devices must meet the requirements of standard EN 60950 1 The device FM4100 is not designed as a navigational device for boats 1 5 Legal Notice Copyright 2008 Teltonika All rights reserved Reproduction transfer distribution ot storage of part or all of the contents in this document in any form without the prior written permission of Teltonika is prohibited Other products and company names mentioned here may be trademarks or trade names of their respective owners 1 4 About document This document contains information about the architecture possibilities mechanical characteristics and configuration of the FM2200 device Acronyms and terms used in document e PC Personal Computer e GPRS General Packet Radio Service e GPS G
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