FM1100 Manual
Contents
1. 3 5 Socket 2x10 pinout 10 11 12 13 14 15 16 17 EXT BAT OUT OUT AIN AIN DIN DIN 4 IW PWR CAN L GND SE 7 d f ji Iw data aa CAN H O e N U A O On N O VO O P VCC IU0730 V DG o Figure 5 2x10 socket pinout Table 6 2x10 SOCKET PINOUT DESCRIPTION GND CAN L 1W PW DIN 2 AIN 4 AIN 2 OUT 3 OUT 2 R Ext Battery This pin is used connected with pin 20 Ext Battery Function of those pins is to disconnect the internal accumulator during shipment or storage When pin 10 and pin 20 are connected the internal accumulator is on while disconnected the internal accumulator is off Power supply pin SAE J1939 CAN interface High channel Data channel for Dallas 1 Wire devices Digital input channel 3 DIN 1 Digital input channel 1 RESERVED FOR IGNITION LINE AIN 3 Analog input channel 3 Input range 0 30V 0 10V DC AIN 1 Analog input channel 1 Input range 0 30V 0 10V DC Description OUT 4 Digital output Channel 4 Open collector output OUT 1 Digital output Channel 1 Open collector output This pin is used connected with pin 10 Ext Battery Function of those pins is to disconnect the internal accumulator during shipment or storage When pin 10 and pin 20 are connected the internal accumulator is on while disconnected the internal accumulator is of2. Figure 8 FM firmware updating finished St CC E 4 2 Updating firmware via GPRS Firmware can also be updated over GPRS using RILS system RILS stands for Remote Imlet Loading System which is used to update FM5300 processor firmware In order to update firmware server sends a SMS to the FM5300 and directs it to connect to the server and download new firmware The special web interface is used for this operation Address of the web application is http 212 47 99 62 5002 RILS web For RILS login and password please contact your sales manager User demo Logout Step 2 Configure modules Upload modules From File Br A Si Ea Unload Please configure module ei IMEI Server IP address Server port Module number APNI chap login chap password Add module Figure 9 Remote Configuration After logging in click on Upload EMA click Browse select FM5300 firmware file from hard disk click OK and then Upload Select uploaded firmware from the list last one and click next Enter necessary parameters in the fields l Server IP 212 47 99 62 2 Server port 5009 3 Module number is GSM number of FM SIM in worldwide standard for example 37069912345 Enter your APN APN chap login and password After entering all parameters click Add Module To operate multiple devices enter new IMEI and GSM number and click Add Module again Otherwise click Next and if all data is correct in next win
3. 9 DATA SENDING GPRS 9 1 DATA PROTOCOLS 9 1 1 AVL data packet AVL packet Table 12 is used to encapsulate AVL data and send it to server Table 12 AVL Data packet Constant Prefix Field 5 EE Cyclic Redundancy Check Four Zeros Data Length Field Data CRC 16 Four Zeros Data Length Field Data CRC 16 4 Bytes 4 Bytes D 4 Bytes e Four zeros four zero bytes 0x00 0x00 0x00 0x00 e Data length number of bytes in data field e Data any AVL data array e CRC 16 bit CRC value of data Integer Polynomial OxA001 9 1 2 AVL Data Array Because the smallest information amount that can be written is one bit there can be some bits left unused when result is byte array Any unused bits should be left blank Table 13 AVL Data Array structure D Codec ID Number of Data ata i Number of Data 5 1 3 subsection 1 Byte 1 Byte Se 1 Byte e Codec ID packet ID 0x08 e Number of Data number of encoded data number of records variable e Doto encoded data variable 9 1 3 AVL data Table 14 AVL Data structure Tee Priority GPS Element I O Element P 5 1 4 subsection 5 1 5 subsection 5 1 6 subsection amp Bytes 1 Byte 15 Bytes e Timestamp difference in milliseconds between the current time and midnight January 1 1970 UTC 9 1 4 Priority Table 15 Priority field description Gre 0 E a eer 3 Securit
4. Figure 50 Immobilizer configuration parameters Immobilizer Enable Disable Immobilizer Scenario 12 4 Authorized Driving Scenario Authorized Driving Gives ability to use vehicle only for 50 specific iButton owners specified in iButton list DOUT2 is controlled by scenario for user needs to manage buzzer LED etc Gi TELTONIKA 12 4 1 Configuration Figure 51Authorized driving configuration parameters Authorized Driving Enable Disable Authrized Driving Edit iButtons List Enter authorized iButtons Gi TEL TONIKA 13 CHANGE LOG i Version Comments 2011 11 16 on Preliminary draft release 2011 11 27 Added 5 12 chapters minor changes in 1 4 chapters
5. 9 2 1 Communication with server First when module connects to server module sends its IMEI IMEI is sent the same way as encoding barcode First comes short identifying number of bytes written and then goes IMEI as text bytes For example IMEI 123456789012345 would be sent as e 000F313233343536373839303132333435 After receiving IMEI server should determine if it would accept data from this module If yes server will reply to module 01 if not 00 Note that confirmation should be sent as binary packet Then module starts to send first AVL data packets After server receives packets and parses its server must report to module number of data received as integer four bytes If sent data number and reported by server doesn t match module closes connection with server Example 1 Module connects to server and sends IMEI FM gt 000F313233343536373839303132333435 2 Server accepts the module 01 Server 3 Module sends data packet FM gt 00000000000000FE0802 data elements 0200008612 e 00000000 four zero bytes e QOOOOOFE data length hexadecimal converted to decimal 254 e 08 codec ID e 02 number of data encoded using continuous bit stream Last byte padded to align to byte boundary data elements AVL data array e 02 number of data encoded using continuous bit stream Last byte padded to align to byte boundary e 00008612 CRC 4 Server acknowledges data reception 2 da
6. Priority of generated event which will be applied to saved record Generate Event Enter Event Event generation on Geofence entrance Exit Event Event generation on Geofence exit On Both Event generation on Geofence entrance Or exit Auto Geofencing does not require entering coordinates instead it requires GPS visibility If vehicle stopped and activation timeout is passed Auto Geofence will be created around vehicle last position by set Radius value Auto Geofence event generation works the same as Geofencing mentioned above 6 3 2 3 5 Button List iButton list is used to enter authorized iButton ID codes which are used to authenticate driver in Authorized driving and Auto Geofencing options Features iButton List Attention iButton is used only with AUTHORIZED DRIVING scenario or AutoGeofencing Button ID Kad oooodo00000000000 ooooo00000000000 ooodo000000000000 ooooo00000000000 ooooo00000000000 ooodoo00000000000 0000000000000000 S000000FBCS260 0000000000000000 5 iButton ID should be entered 0000000000000000 in order like shown above ooooo00000000000 Figure 29 Features gt iButton Configuration iButton value must be entered as it is written on it 6 3 2 4 1 0 If all UO elements are disabled AVL packet comes with GPS information only After enabling I O element s AVL packet in couple with GPS information contains current value s of enabled I O element 6 3 2 4 1 FM5300 availab
7. Se CET FM5300 User Manual DRAFT v0 1 St CC E Table of contents INTRODUCTION RE 4 1 1 PATI ei EE E A E 4 1 2 INSTRUCTIONS OF SAFETY EE 4 1 3 TGA INO E EE 5 1 4 ABOUT DOCUMENT EE 5 BASIGDESCRIPTION EE 5 2 1 Mie giezeechtC RE 6 2 2 BASIC e RAC ER ge 6 2 3 MECHANICAL FEATURES sassisccecesciunsdonsdwdedinadawsbantanoaedesdeunedonsdudadinnnmsGdabasoaudenteunsduneduastoneamseiamesoawens 7 2 4 ELECTRICAL CHARACTERISTICS EN 8 2 5 ABSOLUTE MAXIMUM RATINGS sscecsscscsscscuccesuccesucceteccseeccssecsssecnseesaseesaseususeusesceseseuseceuseces 10 CONNECTION AND PINOUT esseeseessescescescesceccoescescecsescoeceecoesceccescecceccoeccessesceececseeccessesseese 10 3 1 SIM CARD INSERT SCHEME 10 3 2 INSTALLING FMI5300 DRIVERS sccsecsecceccnccsceeecseceuceucesecseeseeeceeceeeeseeeeeeseeceueeeeeseeeeseeeeeceees 12 3 3 IG Te ae ace caenceca sane sac oacincnaineeasiceanccdanue ees e ieanaa N 13 3 4 KREE RE 13 3 5 SOCKET 2X10 PINOUT Aessen ege 14 3 6 EC RE 15 PRIVY ARE E 16 4 1 UPDATING FIRMWARE USING USB CABLE sesesessessseesersssesesesererrrrrseseseserereesenesererereesesererereesesesesee 16 4 2 UPDATING FIRMWARE VIA GR 17 OPERATION eege 18 5 1 OPERATIONAL PRINCIPLES soscintindussinataite sensi atsnictunaetandiodeiielichurgadleemtinianviiatnaessbudingusaieshuuesitnndonesaiioboneiatens 18 5 2 OPERATIONAL MODES si svevccsececassncancedcvcdadcsasedan natesdateeeseiwenacncdatawaceacesddsausteanweeee ca NAAS 18 5 3 ACCEL
8. This chapter contains information on how to operate FM5300 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 To avoid mechanical damage it is advised to transport the FM5300 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 2x10 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 FM5300 is not designed as a navigational device for boats 1 3 Legal Notice Copyright 2011 Teltonika All rights reserved Reproduction transfer distribution or 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 conf
9. When two or three temperature sensors are connected to FM5300 it is necessary to define sensor ID to certain property separately This way FM5300 will know which temperature sensor is which property FM5300 automatically updates ID s field if any sensors are connected while configuring device via configurator Call Settings Accelerometer settings Temperature Settings 6 3 2 Settings and configurable parameters menu Every FM53 profile has four main groups of parameters 1 System main parameters for all device 2 GSM has 3 subgroups a GPRS b SMS c OPERATOR LIST 3 Features 4 IO 6 3 2 1 System Settings System settings have 2 configurable parameters Figure 18 e Deep sleep settings where user can turn deep sleep on or off e Object Motion Detection Settings where user can configure 3 ways how FM5300 will detect stopped movement This parameter is used for autogeofencing SYSTEM Deep Sleep Settings Deep Sleep Mode Features i o Stop Detection Source Ignition Figure 18 System Settings Configuration 6 3 2 2 GSM Settings 6 3 2 2 1 GPRS GPRS define main parameters for FM5300 GSM operator APN and GPRS username and password optional depending on operator destination server Domain can be entered either IP or domain name and port Also both TCP and UDP protocols are supported Some operators use specific authentication for GPRS session CHAP or PAP If any of these
10. AFN Raad Zens Hybrid s Lg 4 Zo Distance based coordinate recording A Figure 38 Distance based tracking 8 1 3 Min Angle Angle based data acquiring Figure 39 records are being acquired when angle difference between last recorded coordinate and current position is greater than defined value Entering zero disables data acquisition depending on angle This method is suit for urban territories Note that record generation by angle is performed if vehicle is moving at least 6 km h Angle based coordinate recording ma E pn 420 m OO gen gert S Bhi P a DE Loin AI gbaaa ERAN 3 atw i Figure 39 Angle based tracking 8 2 1 O data acquisition Data also can be acquired using input output elements it s change All base elements are declared in Table 9 PERMANENT UO elements list description and in Table 10 EVENTUAL I O elements list description 8 2 1 Configuration Data acquisition by I O elements can be configured selected IO menu in configurator refer to chapter 6 3 2 4 2 Priority Low as a regular data High generated record are sent immediately to server Panic generated record are sent immediately to server and simultaneously the same record as SMS message High Level High range of value input Gi TEL TONIKA Low Level Low Range of value input Averaging constant see detailed description in chapter 6 3 2 4 2 8 2 2 Event generation There are fi
11. Call trigger defines input which will be used to receive or make a call Usually to that input a button is connected Digital Input 1 is not allowed because this input is dedicated for ignition Are used to switch between two data sending modes starting from newest records or starting from oldest record Active data link timeout Record Settings defines how many seconds should FM5300 keep connection to the server before disconnecting after successful data transfer Note that even if it disconnects from server it always keep active GPRS session Defines maximum input voltage on analog input Possible cases are all Analog input inputs 0 30V 0 10V two inputs 0 10V while other two 0 30V maximum settings input range has impact on precision values on 0 10V input are measured more precisely than 0 30V higher resolution Defines accelerometer sensitivity range 0 5g 1g 1 5 2g how many seconds should movement be detected by accelerometer in order to set movement for FM5300 application and how many seconds after movement is not detected by accelerometer FM5300 application should treat like movement is still there Static Navigation Allows enabling or disabling functionality settings GNSS Settings Allows choosing compatibility mode and satellite System COM1 Settings Allows configuring COM1 baud rate parity and flowing control COM Settings Allows configuring COM2 baud rate parity mode end line binary timeout and 3 prefixes
12. 0 target left zone 1 target entered zone 165 Event 0 target left zone 1 target entered zone 166 Event 0 target left zone 1 target entered zone 167 Event 0 target left zone 1 target entered zone 168 Event 0 target left zone 1 target entered zone 169 Event 0 target left zone 1 target entered zone 170 Event 0 target left zone 1 target entered zone 171 Event 0 target left zone 1 target entered zone 172 Event 0 target left zone 1 target entered zone 173 Event 0 target left zone 1 target entered zone 174 Event 0 target left zone 1 target entered zone 175 Event 0 target left zone 1 target entered zone 250 Trip 1 trip start O trip stop 251 Immobilizer 1 iButton connected 252 Authorized driving 1 authorized iButton connected 1 harsh acceleration 2 harsh braking 3 harsh cornering 354 ECO driving value Depending on green driving ve if harsh acceleration braking and cornering g 10 m s 255 Over Speeding aed speeding start km h at over speeding end There are two types of operations with Permanent I O elements simple monitoring and event generating Monitoring method is used when current I O information needed with regular GPS coordinates Event generating method is used when additional AVL packet is needed when current value of I O exceeds predefined High and Low levels I O settings allow defining I O event c
13. 2 FM5300 device input and output power supply cable with a 2x10 connection pins 4 screws for assembling device GPS GLONASS antenna GSM antenna USB cable Port 1 2 cable Port 3 cable card with link to drivers and configurator Basic characteristics GSM GPRS features e Teltonika TM11Q quad band module GSM 850 900 1800 1900 MHz e GPRS class 10 e SMS text data GPS features e GPS GLONASS receiver e Protocol NMEA 0183 e Upto 161 dBm sensitivity Hardware features e Cortex M3 processor e 4MB internal Flash memory e Built in accelerometer Interface features e Power supply 10 30V USB port 4 digital inputs 4 analog input 4 open collector digital outputs 1Wire temperature sensor 1Wire iButton LEDs indicating device status 2xRS232 ports Audio interface S Package content depends on Order Code and can be customized by customer needs 2 3 Mechanical features Table 1 FM5300 physical interfaces and operation environment Part name Physical specification Operation environment Modem LED LED GPS antenna connector MCX G PS SM GSM antenna connector SMA female ADEN HEES outer shell female inner pin 25 C 55 C Storage temperature USB Tyco Micro MATE N LOK 40 C 70 C Socket 2x10 H T or similar Storage relative humidity 5 Ob non condensating Mini USB socket RS232 port channel 1 RJ45 socket RS232 port channel 1 RJ45 socket
14. FEATURES FEATURES FEATURES IC IR IC IC Figure 31 FM5300 profile structure Switching between profiles changing behaviour 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 Profile 3 is default profile for FM5300 It is always loaded on very first start up and further profile switching is proceeded after operator scan or I O element changes although device remembers which profile it used after that 7 1 Depending on GSM Operator Profile Switching 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 behaviour 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 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 can either contain operator codes rarely used or have empty list Profile 4 is not used profile 4 can only be used whe
15. I O Odometer value field and reset to zero every new record until Trip stops If later all Odometer values are summed up manually user gets distance driven over whole Trip period 6 3 2 3 4 Geofencing 6 3 2 3 4 1 Geofencing settings FM5300 has 20 configurable Geofence zones and it can generate event when defined Geofence zone border has been crossed FEATURES Geofencing Geotencing Frame border i B m Geofence zone Zonet E Friority Low E Generate Event Longitude Pl 0 000000 Latitude frt 0 000000 Figure 26 FM53 Features gt Geofencing Configuration 1 Configuration of the parameters is available in Features gt Geofencing Figure 26 Frame border frame border is an additional border around Geofence zone It is additional area around defined zone used to prevent false event recording when object stops on the border of the area and because of GPS errors some records are made inside area and some outside Event is generated only when both borders are crossed See figure for details track 1 is considered to enter the area while track 2 does not Track Nr 1 Ki k nal a Figure 27 Geofence border Shape can be rectangular or circle Priority priority of Geofence event low high or panic These levels define priority of event information sending to server See I O element description for more details about priorities Generate event On entrance On exit On Both choose
16. ID Module IMEI AVL data array 1 Byte 16 Bytes e AVL packet ID id identifying this AVL packet e Module IMEI MEI of a sending module encoded the same as with TCP e AVL data array array of encoded AVL data 5 11 table Server response message structure Server response to AVL data packet AVL packet ID Number of accepted AVL elements 1 Byte 1 Byte e AVL packet ID id of received AVL data packet e Number of accepted AVL data elements number of AVL data array entries from the beginning of array which were accepted by the server 9 3 3 Communication with server Module sends UDP channel packet with encapsulated AVL data packet Packet type 1 or 0 If packet type is 0 server should respond with valid UDP channel acknowledgment packet Since server should respond to the AVL data packet UDP channel acknowledgment is not necessary in this scenario so Packet type 1 is recommended Server sends UDP channel packet with encapsulated response Packet type 1 this packet should not require acknowledgment Module validates AVL packet id and Number of accepted AVL elements If server response with valid AVL packet id is not received within configured timeout module can retry sending Example 1 Module sends data packet FM gt 00OFDCAFE01DD000F31333435363738393031 323334350802 data elements 02 OOFD data length converted to decimal 253 CAFE packet I
17. enables user extended monitoring of performed trips from engine start at present location to engine stop at arrived location log their start and stop points view driven total distance Event will be generated included into send records only when trip starts and finish 5 7 3 Geofencing Geofencing is another feature which is highly customizable and can detect wherever car enters or leaves customized areas More about Geofencing can be read in 5 7 3 chapter Auto Geofencing feature if enabled is activated automatically by turning off car ignition Next time before driving user has to disable Auto Geofencing with iButton or by turning on car ignition In case of theft car leaves Auto Geofencing zone without authorization FM5300 device automatically sends high priority record to AVL application 5 7 4 iButton list Button list is used to enter authorized iButton ID codes which are used to authenticate driver in Authorized driving and Auto Geofencing options 6 CONFIGURATOR 6 1 STARTUP FM5300 configuration is performed via FM5300 Configurator program FM5300 Configurator version can be downloaded from http avli teltonika It downloads FM53 Contact sales manager to get the latest FM5300 Configurator version FM5300 configurator operates on Microsoft Windows OS and uses MS Net Framework 3 5 or higher Please ensure that MS Net Framework 3 5 or later is installed on your PC before starting configurator Latest MS Net Framework
18. table Therefore if all boxes are checked FM5300 is able to open new connection anytime At scheduled time match FM5300 checks for GPRS session activity If GPRS session is alive FM5300 sends data to server according to Send period parameter If it is not FM53 checks if it is able to re establish the session Data Acquisition Modes Min Period Min Distance Min Angle 13 Min Saved Records Send Period 300 GPRS Week Time e RR Save Cancel Figure 23 FM53 Features gt Mode Configuration 6 3 2 3 2 Scenarios In Scenarios window four different scenarios are available two per each Digital Output DOUT Only one per digital output can be active at a same time e g DOUT1 can have either ECO driving or Over Speeding enabled DOUT2 can have either Authorized Driving or Immobilizer enabled Scenarios configurable parameters are shown in Figure 24 All values of these parameters are described in chapter 12 Features Scenarios Digital Output Nol usage scenarios _ Digital Output No 2 usage scenarios DI Eco Driving Disable Authorized Driving Disable Ge shen ET SE Edit Buttons List Buttons Mas Braking Force cn cn on Tree on May Cormenng Force m s Adaptive Calibration Enable g Auto Calibration Enable vis Auto Calibration Penrod z Acceleration Detection op Ca Sensitivity es Breaking Detection p Sensitrvity Un R Comering Detection E Sens
19. this position e Differential Cords format of following data e Longitude Diff Difference from previous element s longitude Longitude Diff prevLongitude Longitude 2 1 e Latitude Diff Difference from previous element s latitude Latitude Diff prevLatitude Latitude 2 1 e Longitude longitude LongDegMult 18 10 27 1 over 36 10 e Latitude atitude LatDegMult 9 108 2 1 over 18 10 Speed Speed in km h Longitude longitude field value of GPS Data Latitude latitude field value of GPS Data LongDegMult longitude in degrees multiplied by 10 integer part LatDegMult latitude in degrees multiplied by 10 integer part prevLongitude longitude field value of previous GPS Data prevLatitude latitude field value of previous GPS Data 10 1 3 Decoding GPS position When decoding GPS data with Differential Cords 1 Latitude and Longitude values can be computed as follows Longitude prevLongitude LongitudeDiff 217 1 Latitude prevLatitude LatitudeDiff 2 1 If there were no previous non differential positions differential coordinates should be computed assuming prevLongitude prevLatitude 0 When Longitude and Latitude values are known longitude and latitude representation in degrees can be computed as follows 6 1 and 6 2 ee E 6 1 11 DEEP SLEEP MODE While in deep sleep mode FM5300 sets GP
20. when record will be generated X1 geofence zone left bottom corner X coordinate Y1 geofence zone left bottom corner Y coordinate X2 or R geofence zone upper right corner X coordinate radius of circle when Circular zone used Y2 geofence zone upper right corner Y coordinate 6 3 2 3 4 2 AutoGeofencing settings AutoGeofence the last known position after movement off If your car s being taken away you can be notified The shape and size of the geofence zones are parameters Possibility to state whether entering in or out of the geofence triggers an asynchronous message AutoGeofencing L EH Activate Disable d Activation timeout 60 Deactivate By Ignition Edit iButtans List Buttons Priority High Generate Event On Exit F als 1 go m i Figure 28 FM53 Features gt Geofencing Configuration 2 Auto Geofencing option can be configured by following parameters Figure 28 Activate Enable or Disable Autogeofence functionality Activation TMO Time period before Geofence is activated after vehicle stops Deactivate By gnition If ignition becomes high it will drop AutoGeofenze Zone Button if iButton is attached it will drop AutoGeofence Zone Edit iButton List if list is not empty attached iButton is tested against a iButton list if match is found AutoGeofence zone is dropped Priority
21. window This will launch device driver installation wizard In the following window click Next button again Device Driver Installation Wizard Welcome to the Device Driver Installation Wizard This wizard helps you install the software drivers that some computers devices need in order to work To continue click Next Figure 3 Driver installation window Setup will continue installing drivers and will display a window about successful process in the end Click Finish to complete setup Device Driver Installation Wizard Completing the Device Driver Installation Wizard The drivers were successfully installed on this computer You can now connect your device to this computer If your device came with instructions please read them first Driver Name Status wi STMicroelectronics usb Ready to use Figure 4 Driver installation window You have now installed drivers for FM5300 device successfully 3 3 Navigate LED Table 4 Navigate LED operation Permanently switched on GPS signal is not received Blinking every second Normal mode GPS is working Of GPS is turned off because Deep sleep mode Or GPS antenna short circuited 3 4 Status LED Table 5 Status LED Operation Blinking every second Blinking every 2 seconds Deep sleep mode Blinking fast for a short time Modem activity Blinking fast constantly Off Device is not working Device firmware being flashed
22. 1100 11001010 10000000 first bit bold is 0 which means coordinate is positive e Converted to decimal format 547146368 e For more information see two s compliment arithmetics 9 1 6 I O Element Table 17 I O element structure N1 of One Byte 1 st IO Value N4 th IO Value N8 of Eight Bytes 1 st IO Value N1 th IO Value N2 of Two Bytes 1 st IO Value N2 th IO Value N4 of Four Bytes 1 st IO Value N8 th IO Value 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 2 Bytes 2 Bytes 1 Byte 4 Bytes 4 Bytes 1 Byte 8 Bytes e Event IO ID if data is acquired on event this field defines which IO property has changed and generated an event If data cause is not event the value is 0 N total number of properties coming with record N N1 N2 N4 N8 N1 number of properties which length is 1 byte N2 number of properties which length is 2 bytes N4 number of properties which length is 4 bytes N8 number of properties which length is 8 bytes 9 1 6 1 Example Received data O80400000113fc208dffO00F1l4Fo50209ccas0006f00d60400040004030101150 316030001460000015d0000000113fc17610b000f14F Fe0209cc580006e00c005 00010004030101150316010001460000015e0000000113 c284945000f150 002 O9cdZ0000950108040000000403010115001 60300014 600000015d0000000113f fc Z2Zo7c5b000f150a50209cccc000930008040000000403010115001603000146000 0015p0004 8 Byt
23. ATURES AND SCENARIOS e sessesessescssescesoscescescecessesoscessesoccessesessesseseesesseseesesseseesessese 57 12 1 ee Ree d Le E 57 12 1 1 Mounting REOQUILCIMCI E 57 12 1 2 ere eenancesecedenesoectetenenedeposeancadeneiecoaeieu EE Ir E AE T in 59 12 2 OVERSPEEDING SCENARIO eet 60 12 2 1 Mounting Requirements and Working Conditions cssseeccccnnesseceecaeeseceeeaeseeeens 61 12 2 2 CO O ar A A EAA eat 61 12 3 IMMOBILIZER SCENARIO EE 61 12 3 1 C O aa EEEE EE EEA EE 61 12 4 AUTHORIZED DRIVING SCENARIO EE 61 12 4 1 ere 62 13 CHANGE E a E 63 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 must 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 Any installation and or handling during a lightning storm are prohibited FM5300 has USB interface Please use cables provided with FM5300 device Teltonika is not responsible for any harm caused by using wrong cables for PC lt gt FM5300 connection 1 2 Instructions of safety
24. Acceleration Force acceleration event WEE Value which can be reached while braking without triggering harsh braking event Mae Commenine Force Value which can be reached while cornering without triggering harsh cornering event Enable Disable Adaptive Calibration This method of calibration monitors vehicle horizontal plain position Usually vehicle position Adaptive Calibration changes while driving uphill or downhill If required level of horizontal plain position change is detected FM5300 device automatically adapts to new position Enable Disable Automatic Calibration FM53 device calibrates itself Auto Calibration sie gs periodically Independent from vehicle position Lower the value to increase sensitivity Increasing sensitivity means that more acceleration can will be detected on the same period of time Response time decreases Lower the value to increase sensitivity Increasing sensitivity means that more braking can will be detected on the same period of time Response time decreases Lower the value to increase sensitivity Increasing sensitivity means that more cornering can will be detected on the same period of time Response time decreases Acceleration Active Set active ouput duration after harsh acceleration event detected Output Duration Braking Active Output Set active ouput duration after harsh braking event detected Duration Cornering Active Set active ouput duration after harsh cornering event de
25. D 01 packet type without acknowledgment DD AVL packet ID 000F3133343536373839303132333435 IMEI 08 codec ID 02 number of data encoded using continuous bit stream data elements AVL data array 02 number of data 2 Server acknowledges data reception 0005ABCD01DD02 Server e 0005 packet length e ABCD packet ID e 1 packet type e DD AVL packet ID e 2 number of accepted data 10 DATA SENDING SMS AVL data or events can be sent encapsulated in binary SMS TP DCS field of these SMS should indicate that message contains 8 bit data for example TP DCS can be 0x04 6 1 table SMS data SMS data TP UD AVL Data Array IMEI 8 Bytes e AVL Data Array array of encoded AVL data e MEI IMEI of sending module encoded as a big endian 8 byte long number 10 1 24 position SMS data protocol 24 hour SMS is usually sent once every day and contains GPS data of last 24 hours TP DCS field of this SMS should indicate that message contains 8 bit data i e TP DCS can be 0x04 Note that 24 position data protocol is used only with subscribed SMS Event SMS use standard AVL data protocol 10 1 1 Encoding To be able to compress 24 GPS data entries into one SMS 140 octets the data is encoded extensively using bit fields Data packet can be interpreted as a bit stream where all bits are numbered as follows 6 2 table 24 GPS data ent
26. EROMETER E 18 5 4 RISCH 19 5 5 VOICE FUNCTIONALITY EE 19 5 6 PEORIEN erste A E E tance anauisesnsettensavess 20 5 7 FEATURE Ee 20 5 7 1 ie 20 5 7 2 TD EE 20 5 7 3 ELET Rene ee eee Eee nee nme rT ene mre E et nee er ee ee 21 5 7 4 Ee EE 21 CONFIGURATOR EE 21 6 1 TARTIP oes siienci sean sarragisa notes E asaanauaauoonenaieaeraaaannseonaneees 21 6 2 CONFIGURATOR Agen TEE 22 6 2 1 EEN ENEE 23 6 2 2 PROMI OI GCG E 24 6 2 3 Profiles global parameters selection area ccccccccccceccccccccccceceeseescececeseceeeeeseesesesess 24 6 3 PARAMETERS CONFIGURATION Netgen eege eg i a a E E E eege 25 6 3 1 Global parameters Settings cccccccseeseccccsneseccccsenseeccssueseccsssuseccessaunsecsssansessssauasess 25 6 3 2 Settings and configurable parameters menu 26 Del OVE ETNE aaa navesaurnemne vaiaseaes urge oeacssuaee eeeuuneeatesinceupsancees 26 ee GSMA SS ege 27 632221 GPRS EE 27 ee 27 Dad aa Opar ator EE 28 2 E rg 29 E EC e ER eu 29 Dena SENOS ee 30 EE T e EE 31 St CC E 6 3 2 3 4 GOOTENCING cccccccssecccesececenecccesceceuecscsececeuececeuececeuececsuecetseecetsuecetsuacessuecetsuacetsgerets 31 6 3 2 3 4 1 GeEOFENCING settinge 31 6 3 2 3 4 2 AutoGeofencing settings ccccccccccsssssseccccecseeeseeeccesseeeseeeceeesseeeseeeeseesaaeeseeeess 32 O32 MB LO EE 33 Sho Se E EE 34 6 3 2 4 1 FM5300 available I O list cecceccccccesececccceeseecececsseeeeeceessseuueeseeeeseeeueeseeeseseeaees 34 63 2 4 VO
27. GPS GLONASS antena GSM antena 104 1 Figure 1 FM5300 view amp dimensions in mm tolerance 2mm 2 4 Electrical characteristics Table 2 Electrical characteristics Typ CHARACTERISTIC DESCRIPTION co a O O as SUPPLY VOLTAGE Supply Voltage Recommended Operating Conditions aal o 1 8 Supply Voltage for internal rechargable battery charging proper 9 5 functioning POWER SUPPLY CURRENT HARDWARE VERSION WITH INTERNAL BATTERY LA LA DND ag LA UI LO gt gt LA LP 3 gt gt Deep Sleep average Icc ds Ucc 12 6V all modules fully working internal battery is charging Icc1 Ucc 12 6V all modules fully working internal battery is charged Icc2 315 3 gt N Ex nn 3 gt Ucc 25 2V all modules fully working internal battery is charging Icc3 Ucc 25 2V all modules fully working internal battery is charged Icc4 SUPPLY CURRENT HARDWARE VERSION WITH EXTERNAL BATTERY Deep Sleep average Icc ds 123 3 gt 7 un Ucc 12 6V all modules fully working internal battery is charging Icc5 SEN 3 gt Ucc 12 6V all modules fully working internal battery is charged Icc6 SEH 3 gt Ucc 25 2V all modules fully working internal battery is charging Icc7 ao 3 gt Ucc 25 2V all modules fully working internal battery is charged Icc8 DIGITAL OUTPUT OPEN DRAIN GRADE LA NO LA 3 gt Drain current Digital Ou
28. GSM gt SMS Settings Configuration 1 SMS data sending Settings enables or disables periodic data and event SMS sending to server Figure 21 Configuration is divided into 3 main parts 1 Enable Disable functionality 2 SMS Week Time button can be pressed only if functionality is Enabled 3 Server Phone Number has to be written in first position of Authorized phone numbers SMS data sending Settings D SMS data sending Settings Enable SMS Week Time 86 SMS Week lime Settings Se mmm RK SMS password C Authorized phone numbers Server Phone Number WIR OSU KS PAKS EES es Figure 21 GSM gt SMS Settings Configuration 2 Using these settings FM5300 can send SMS with 24 coordinates in one SMS it is used in areas where no GPRS coverage is available Module collects data and sends to server binary SMS containing information about last 24 collected points SMS sending schedule is set in SMS Week Time tab 24 Coordinates SMS decoding is described in FMXXXX Protocols document 6 3 2 2 3 Operator List FM5300 is able to use GPRS with all operators but if at least one operator is entered in the list FM5300 is allowed to connect to GPRS only while operating in listed operator s network Also operator list has influence on profile switching see details in chapter 7 if Global parameter Profile switching on event
29. GSM Operator mostly used for roaming applications or by Profile switching depending on I O Event on I O value changing More information about Profile switching functionalities can be found in chapters 7 1 switching by GSM Operator and switching by I O Element 7 2 5 7 Features Using available features can greatly increase FM5300 usability options 5 7 1 Scenarios Four scenarios are available on FM53 device a Digital Output No 1 is used by scenarios Eco Driving or Over Speeding b Digital Output No 2 is used by scenarios Authorized Driving or Immobilizer Eco Driving Scenario Gives the ability to periodically monitor driving characteristics and warn the driver against over accelerating braking or cornering This scenario also features adaptive and auto calibration More about Eco Driving read in chapter 12 1 Over Speeding Scenario Helps to prevent from exceeding fixed speed and inspects driver if needed DOUT1 is controlled by scenario for user needs to manage buzzer LED etc Authorized Driving Scenario Gives ability to use vehicle only for 50 specific iButton owners specified in iButton list DOUT2 is controlled by scenario for user needs to manage buzzer LED etc Immobilizer Scenario Vehicle can be used only if iButton is connected In this scenario iButton list is not used connect any iButton to pass Immobilizer security DOUT2 is controlled by scenario for user needs 5 7 2 Trip Trip customizable feature
30. Reco a dE DEE 36 7 Zeie TR SC Thte UE 39 7 1 DEPENDING ON GSM OPERATOR PROFILE SWITCHING ccsccecceecsecceccucceceeeseeceeceuceeeeseeeeeeeeeeenees 39 7 2 DEPENDING ON I O EVENT PROFILE SWITCHING sscccccccesssccccccessccecceescececeeusessceeuscesseeeuseeseeeuens 41 7 2 1 EQUI SU a EE cace tit caaecsst vc ec ase eas E TEE T 41 7 2 2 e 41 e DAIAACQOQUISINON E 42 8 1 GPS DATA COIS EOIN E 42 8 1 1 Min CTIOO E 43 8 1 2 N TOTS T E 44 8 1 3 e e 45 8 2 I O DATA ACQUISITION EE 45 8 2 1 Cona OUO ereer anne EEEE E E EAE EESE 45 8 2 2 EV D O NOOT o E T E 46 9 DATA SENDING GPRS EE 47 9 1 DATA PROTOCOLS cc cccccsscovsscsccssconsscaccescacssasevesceessasenereaessasepersasssasenersasenasecersasssasenes 47 9 1 1 AVL data PACKE EN 47 9 1 2 AVL Re e Ee E 47 9 1 3 AVECO EE 48 9 1 4 EIERE 48 9 1 5 GPS E 48 9 1 6 VO E 49 is EKI e e E E A RS 49 9 2 SENDING DATA OVER TOP onasosnsossssnsossssonessnsonsesruosnesonsesnsossosrnossnsonsosesonuesrneoresonsosnsessesrnesnnse 50 9 2 1 Communication with Servel E 50 9 3 SENDING DATA OVER UD 51 9 3 1 UDP CHG RIC e 51 9 3 2 Sending AVL data using UDP channel 52 9 3 3 COMMUNICATION with server 53 10 DATA SENDING SMS arcsec ect sais ee aces orori 54 10 1 24 POSITION SMS DATA PROTOCOL nssssesssesssessesrrrrsesrereserrrsrsroresesresesesreseseereseerereseereseseereseeeene 54 10 1 1 ECO IO EE 54 10 1 2 Kid 54 10 1 3 Decoding GES DOSIUOI EE 55 11 DEEP Se MODE eegen 56 12 FE
31. S receiver to sleep mode and turns off GSM GPRS module it is not possible to wake up device via SMS therefore records with last good coordinates are being saved and send to AVL server if configured GSM GPRS module is turned on to send data and after turned off Depending on two configurable parameters send period and min period in Deep Sleep mode power usage can be decreased to save vehicle s battery FM5300 can enter deep sleep mode standby mode if ALL of these conditions are met FM1100 has to be configured to work in Deep Sleep mode Startup timeout has elapsed 5 minutes after every restart of the device No movement by accelerometer is detected Ignition DIN1 is off driven logic low Send period in stop mode is more than 60 seconds Data Acquisition Mode settings USB cable is not connected FM5300 exits deep sleep mode when if ONE of following conditions are true Movement by accelerometer is detected depends on accelerometer start settings Ignition DIN1 is turned on driven logic high USB cable is connected HIGH or PANIC priority eventual record is detected While being in deep sleep mode FM5300 can save periodical or eventual records send data to server Note If there is no need to save or send periodical data FM53 have to be configured to switch to another profile on Deep Sleep Event where Min Period and Send Period parameters are 0 or big enough Note In order to save GPRS traffic r
32. an incoming call it can play a selected tone from the Ringtone list FM5300 will auto answer the call after number of rings defined in Auto answer field Voice Settings Figure 11 section includes settings for Microphone level to regulate microphone sensitivity and Speaker level to define how load will be the speaker For detailed Voice Functionality configuration parameters descriptions refer to chapter 5 5 Voce Settings Microphone level Speaker level Call Settings Call number f 234567890 Call trigger DIM 4 X Ringtone Ringtone H Auto answer fi Figure 11 Voice and Call Settings 5 6 Profiles FM5300 has 4 profiles saved in Flash memory of the module Every profile has a list of parameters which enables FM5300 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 behaviours Global parameters contain settings that are common for all 4 profiles This means that if FM5300 is set to call to predefined number you will be able to call it while using any profile Profile 3 is default profile for FM5300 It is always loaded on very first start up and further profile switching is proceeded after operator scan or I O element changes Switching between profiles changing behaviour can be performed by
33. ast time differences FM5XXX Configurator Version 0 0 2 10 a iol sl File Device Help Connect COMI 115200 Load Save Load Defaults Save to File Load from File Reset device Profile 1 Profile 2 Profile 3 Profile4 Global Parameters Source File version Data Acquisition Modes System SE e Features 5 7 S mn gt sMode i 0 Min Saved Records po ml Send Period e00 gt Scenarios gt Trip gt Geofencing GPRS Week Time gt iButton List Profile data successfully loaded From file Security status Unspecified SimPin status Unspecified Figure 36 GPS acquisition configuration window Actual configuration parameters are marked in blue 8 1 1 Min Period Time based data acquiring Figure 37 records are being acquired every time when defined interval of time passes Entering zero means that data will be recorded as fast as possible every second This method is suit best for basic position update Time based coordinate recording Figure 37 Time based tracking 8 1 2 Min Distance Distance based data acquiring Figure 38 records are being acquired when the distance between previous coordinate and current position is greater than defined parameter value Entering zero means that data won t be recorded This method is suit for non urban territories where moving trajectory is straight P Een E as
34. ber which assigned to a set of base GSM stations Max value 65536 0 not moving 1 moving Currently used GSM Operator code Table 10 EVENTUAL I O elements list description Eventual IO elements generated and send record to server only if appropriate conditions are met Property ID in AVL Property Name Bytes Description p ID Specific data CAN 1 Varying ID Specific data ID Specific data ID Specific data ID Specific data ID Specific data ID Specific data ID Specific data ID Specific data ID Specific data Varying ID Specific data ID Specific data ID Specific data arying ID Specific data ID Specific data Event 0 target left zone 1 target entered zone vent 0 target left zone 1 target entered zone vent 0 target left zone 1 target entered zone vent 0 target left zone 1 target entered zone vent 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Geofence zone 01 Geofence zone 02 Geofence zone 03 Geofence zone 04 m m m 160 Geofence zone 06 CAN property length can vary depending on filter settings Data can be sent as 1 2 4 or 8 byte property Eventual IO elements generated and send record to server only if appropriate conditions are met Property ID in AVL Property Name Bytes Description packet 161 162 Geofence zone 09 1 Event 0 target left zone 1 target entered zone 164 Event
35. ction 6 2 Configurator structure FM5300 has four user editable profiles which can be both loaded and saved to the device User can also revert to default settings by pressing Load Defaults button After any modification of configuration settings it has to be saved to FM5300 device otherwise it will not be written to device flash memory FM5300 Configurator is divided into 5 main areas Figure 14 e Buttons area e Information area e Profiles or global parameters selection area e Settings menu e Configurable parameters and values menu Geib KK Configurator Version eet e 115200 Load Save Disconnect COM IMEI 356307040262528 Deep Sleep Settings Disable Deep Sleep Mode Features Object Motion Detection Settings A Stop Detection Source CY Security status Unsecured SimPin status working no pin required a Figure 14 FM5300 Configurator window structure 6 2 1 Buttons area Table 7 Configurator buttons area description Main Buttons Description connects the device reads configuration parameters from FM5300 Flash memory saves configuration parameters to FM5300 Flash memory loads default FM5300 settings that later can be modified allows user to save currently entered settings to XML file for later usage allows user to load configuration saved in XML extension file reboots FM5300 and displays processor firmware version Connec
36. dow click Upload 5 OPERATIONAL BASICS 5 1 Operational principles FM5300 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 Data Acquisition 8 chapter All data is stored in flash memory and later can be sent via GPRS or SMS channels GPRS 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 Data Sending GPRS 6 3 2 2 1 and Data Sending SMS 6 3 2 2 2 chapters FM5300 communicates with server using special data protocol Data protocol is described in FMXXXX Protocols document and in 9 1 chapter FM5300 can be managed by SMS commands SMS Command list is described in SMS Command List section and GPRS commands GPRS Command list is described in GPRS Command List section Module configuration can be performed over TCP or via SMS Configuration parameters and modes are described in FMXXXX Protocols document 5 2 Operational Modes FM5300 is designed to operate in two different modes Normal Mode and Deep Sleep Mode Standby mode Normal Mode means that FM5300 is fully functional and performs all the functionality mentioned above in Operational principals section Deep Sleep Mode i
37. e selected as active while profiles from Flash no 1 4 are fully editable and can be selected as active Reading profiles and Global parameters from Flash memory is very simple procedure By pressing Load button all 4 profiles and Global parameters are loaded to the configurator Figure 15 To configure 3 profile choose a TAB named Profile 3 and all configurable parameters of this profile will be available to change a FM aK Confipuraton Version 0 0 2110 MEI 356307040262528 Source System GSM Property input 0 Digital Input 1 Disabled Features 10 Bytes Available CAN Type ID Output data mask CAN ID Security status Unsecured SimPin status working no pin required Figure 15 FM5300 Configurator profiles loading window After changing profile and global parameters changes can be saved to FM5300 Flash By pressing Save button all 4 profiles and Global parameters are saved to the Flash Figure 16 rr Security status Unsecured SimPin status working no pin required Figure 16 FM5300 Configurator profiles saving information 6 3 Parameters Configuration 6 3 1 Global parameters Settings Global parameters do not depend on selected profile they are common for all profiles To configure these parameters choose a TAB named Global Parameters and make all necessary changes Figure 17 Prof
38. ecords saved in deep sleep mode contains below listed I O elements information Digital Inputs 1 4 Analog Inputs 1 4 Battery Voltage Battery Current Digital Outputs 1 4 External Voltage Movement Sensor Deep Sleep Also Deep Sleep I O is always LOW PRIORITY 12 FEATURES AND SCENARIOS 12 1 Eco Driving Scenario Four scenarios are available on FM11 device Digital Output No 1 is used by scenarios Eco Driving or Over Speeding Digital Output No 2 is used by scenarios Authorized Driving or Immobilizer Eco Driving Scenario Helps to prevent and inspect driver about harsh driving Scenario continuously monitors accelerating braking and cornering forces Inspects driver if needed Monitoring sensitivity is configurable DOUT1 is controlled by scenario for user needs buzzer or LED for example Output activation time after harsh event is also configurable Because functionality generally is dependent on accelerometer it is important to calibrate it on time User can choose from two different calibration methods or use them both To save GPRS traffic Green Driving event will be generated included into send records only when FM1100 measured values are higher than those set in configuration without additional O settings To prevent generating false events Eco Driving only functioning when special conditions are fulfilled mentioned below 12 1 1 Mounting Requirements PLEASE PAY ATTENTION that ECO driving functi
39. es e 08 Codec ID o 04 Number of Data 4 records 1 st record data 00000113fc208dfE Timestamp in milliseconds 1185345998335 gt 1185345998 335 in Unix Timestamp 25 Jul 2007 06 46 38 UTC 00 Priority GPS Element 0 14 650 Longitude 253032016 25 30320162 N 209cca80 Latitude 547146368 54 7146368 2 E 006f Altitude 111 meters 00d6 Angle 2142 04 4 Visible sattelites 0004 4 km h speed 10 Element 00 IO element ID of Event generated in this case when 00 data generated not on event 04 4 IO elements in record 03 3 IO elements which length is 1 Byte 01 10 element ID 01 01 1 st IO element s value 1 15 10 element ID 21 03 21 st IO element s value 3 16 10 element ID 22 03 22 nd IO element s value 3 00 0 IO elements which value length is 2 Bytes 01 110 element which value length is 4 Bytes 46 10 element ID 70 0000015d 70 th IO element s value 349 00 010 elements which value length is 8 Bytes 2 nd record data 00000113fc17610b000f14ffe0209cc580006e00c005000100040301 01150316010001460000015e00 3 d record data 00000113fc284945000f150f00209cd200009501080400000004030 101150016030001460000015d00 th record data 00000113fc267c5b000f150a50209cccc00093006804000000040301 01150016030001460000015b00 o 04 Number of Data 4 records 9 2 Sending Data Over TCP
40. f Ext Battery 3 6 USB FM5300 connected to PC creates STM Virtual COM Port which can be used as system port to flash firmware and configure the device LS Device Manager s m E mm D A Multifunction adapters P Network adapters C M Ports COM amp LPT sven Ei Communications Port COM1 ew Uf PCT EPP ECP Parallel Port LPT3 i YF PCI Serial Port COM i YF PCI Serial Port COM i o G rten Dari A fl System devices Sound video and game controllers ER Universal Serial Bus controllers Figure 6 COM Ports 4 FIRMWARE 4 1 Updating firmware using USB cable FM5300 functionality is always improving new firmware versions are developed Current module firmware version can be retrieved from configurator See configuration description for details Contact sales manager to get the latest firmware Updater is needed to update the firmware It can be downloaded from http avl1 teltonika It downloads FM53 Firmware must to be copied to Firmware updater folder Connect FM5300 to PC with USB cable Launch Firmware Updater select COM port click connect and update Update process may take up to several minutes Firmware updater Version 1 1 0 0 ll x a All devices are updateable Entered R5232 boot mode OK Data transmission started OK beginning data transfer Data transmission ended OK closing data transfer Transfer finished device fimware will be loaded in few moments
41. for details see chapter 7 SW2X priorities switch profiles on event High Level define I O value range If I O value enters or exits this range FM5300 generates event Low Level define I O value range If I O value enters or exits this range FM5300 generates event Generate event defines when to generate event When value enters defined range exits it or both enters and exits Averaging Constant it is an I O event delay parameter In some applications there is no need to generate events on every I O range enter exit immediately Sometimes it is necessary to wait some time interval before event generating to be ensuring that current event is not short time event Averaging constant allows setting I O event delay averaging If I O value is entering or leaving predefined range it must have same value for Averaging constant time One unit of averaging constant value equals 20 milliseconds DESCRIPTION Selected data source value input averaging constant are calculated by following formula yale x CONST 1 REALVAL CONST yap Where VAL Value calculated during actual cycle VAL Value calculated during previous cycle CONST averaging constant REALVALUE Real value detected on digital input CAN Controller Area Network CAN or CAN bus is a computer network protocol and bus standard designed to allow microcontrollers and devices to communicate with each other and without a h
42. iguration of the FM5300 device Acronyms and terms used in document PC Personal Computer GPRS General Packet Radio Service GPS Global Positioning System GSM Global System for Mobile Communications SMS Short Message Service AC DC Alternating Current Direct Current I O Input Output Record AVL data stored in FM5300 memory AVL data contains GPS and I O information AVL packet Data packet that is being sent to server during data transmission AVL packet contains from 1 to 24 records Geofence is a virtual geographic area of interest that can be defined by a radius or polygon for the location In this document term Geofence is often used as functionality which generates an event when crossing defined area 2 BASIC DESCRIPTION FM5300 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 which need location acquirement of remote objects It is important to mention that FM5300 has additional inputs and outputs which let you control and monitor other devices on remote objects FM5300 also has a USB port for device status log output and entering configurations 2 1 Package contents Usually the FM5300 device sample is supplied to the customer in a cardboard box containing all the equipment that is necessary for operation The package contains 2
43. ile 4 Global Parameters IMEI Source version 00 02 26 Profile change on event Enable Dizable Voice Settings Microphone level Speaker level Call Settings Call number Call trigger Ringtone Auto answer Analog Input Settings Analog input 1 2 value range Analog input 3 4 value range Record settings Static Navigation settings Enable Dizable GNSS settings Compatability Mode Sattelite System COM settings Baudrate Flow Control Parity COM2 settings Baudrate Parity Mode End Line Binary timeout Pretiz 1 D GR T Enable GPS Di ll m Lo CH EE ER E Su Oo 3 T Sorting Prefix 2 SS co Active datalink timeout Pretiz 3 Accelerometer settings Temperature settings Movement sensitivity Number EH Movement Filter Start Number Jee Movement Filter Stop Number Sege EH Security status Unsecured SimPin status working no pin required Figure 17 FM53 Global parameters Table 8 Global parameters description Allows selecting profile switching method When Profile change on Profile change on event is disabled FM5300 switches profiles depending on GSM event operator code method Otherwise it switches profiles depending on LO events see details in chapter 7 Voice settings Allows to setup microphone sensitivity and speaker loudness level Gi TEL TONIKA Parameter description Allows entering one number to which FM5300 will be able to call to
44. is disabled Operator List Preferred Roaming Operator List U2 T U3 DU U4 0 Figure 22 FM53 Operator List Configuration 6 3 2 3 Features 6 3 2 3 1 Mode FM5300 is able to collect records using three methods at the same time time distance and angle based data acquisition chapter 8 Send and Save Parameters configuration is available in Features gt Mode category Figure 23 e Min Period time period change that initializes record save e Min Angle angle change that initializes record save only if vechicle is moving e Min Distance distance change that initializes record save only if vechicle is moving e Send period GPRS data sending to server period Module makes attempts to send collected data to server every defined period If it does not have enough records depend on parameter Min Saved Records described above it tries again after defined time interval e GPRS Context Week Time tab most GSM billing systems charge number of bytes kilobytes transmitted per session During the session FM5300 makes connection and transmits data to a server FM5300 tries to handle session as much as possible Session can last hours days weeks or session can be closed after every connection in certain GSM networks this depends on GSM network provider GPRS Context Week Time defines session re establish schedule if session was closed by network New GPRS context is opened if time is 10 minutes till time checked in
45. is used APN should be entered as lt APN gt c or lt APN gt p Le if operator is using APN internet with CHAP authentication it should be entered as internet c Information about APN and authentication type should be provided by your GSM operator GPRS data sending Settings Gas Enable B 3 Activation Enable APN banga gt SMS AE _ Domain 212 47 99 62 gt Operator list Target Server Port 12050 Features IO Figure 19 GSM gt GPRS Settings Configuration 6 3 2 2 2 SMS Essential fields in SMS part is Login and Password Figure 20 This login and password is used with every SMS sent to FM5300 If login and password are not set every SMS sent to FM5300 device has to include two spaces before command lt space gt lt space gt lt command gt Command structure lt ogin gt lt space gt lt password gt lt space gt lt command gt Examples 1 SMS login and password are set asd 123 getgps 2 SMS login and password are not set getgps Phone numbers has to be written in international standard without using or OO signs in prefix If none numbers are entered configuration and commands SMS are allowed to be sent from all GSM numbers Gi TEL TONIKA SMS data sending Settings SMS data sending Settings SMS Week Time SMS password O Figure 20
46. itivity Ui Le Acceleration Active Output Duration S Braking Active Output Duration Lomemg Active Output Duration D OverSipeeding Disable Immobilizer Disable Mas Allowed Speed km h Figure 24 FM53 Features gt Scenarios Configuration 6 3 2 3 3 Trip Trip window offers user to configure Trip feature If Trip is enabled configuration of parameters is available e Start Speed speed which is detected as minimum speed to indicate Trip start e Ignition Off Timeout timeout to wait if ignition was off to detect Trip stop e Continuous distance counting Not or Continuous can be chosen For this feature I O Odometer must be enabled Features TRIP TRIP START STOP DETECTION Enable po For distance counting Start Speed 5 B kmh IO odometer must be 3 enabled Ignition OFF Timeout o B EC i IO elements Trip continuons distance counting Gelee Figure 25 FM53 Features gt Trip Configuration If I O Odometer is enabled and Continuous distance counting variable is set to Continuous Trip distance is going to be counted continuously from Trip start to Trip stop This value is written to UO Odometer value field When Trip is over and next Trip begins Odometer value is not reset to zero it is counted continuously again If I O Odometer is enabled and Continuous Distance Counting variable is set to Not then distance is going to be counted only between every record made This value is written to
47. le I O list Table 9 PERMANENT UO elements list description Permanent I O elements are always sent with every record to server if enabled Property ID in AVL Property Name Bytes H Digital Input Status 1 Digital Input Status 2 Digital Input Status 3 Description GNSS status 1 Voltage mV 0 30 V Voltage mV 0 30 V Tm 7 O IO JIO oa joa 0 OTD OIOIO J AL Re e Re lt o et Q oo D 3 lt LA O lt gl fl em O lO ga M e le D sais OIO CD Alt 3 lt w O lt H Value in scale 1 5 Value in scale 1 4 Value in km h O xxx km h lt zi et Q oo D 3 lt LA O lt ejeje be D S D O OI a DD 3 lt H lt oltage mA O Degrees C O off 1 restarting 2 ready on no fix 3 working 4 O Degrees C 55 115 if 3000 Dallas error O Degrees C 55 115 if 3000 Dallas error 10 Degrees C 55 115 if 3000 Dallas error Difference of generated impulses on two signal lines Permanent I O elements are always sent with every record to server if enabled Property ID in AVL Property Name Bytes Description packet 78 iButtoninput 1 8 Button D number 199 Odometer 4 Distance between two records m 0 not deep sleep mode 1 deep sleep mode GSM base station ID Location Area code LAC it depends on GSM operator 206 Area Code 2 It provides unique num
48. n FM5300 encounters a panic priority event see 7 2 chapter In the example Figure 32 FM5300 connects to operator with code 24702 It checks profile 1 operator list but there is only one operator code entered which does not mach Then it checks profile 2 list This code is entered there so FM5300 switches to profile 2 Current operators 24701 24702 24703 24705 Profile s operator search procedure Operator code found in profile2 Profile Switcher Home network Operator codes 0 24602 1 0 2 0 Roaming network Operator codes 0 24402 1 24702 2 25002 Every 15 min operator scan procedure Figure 32 GSM Operator code profile switching If there are no operator codes entered in all profiles after operator search task FM5300 will check all 3 profiles and won t find any operators in a list In such case FM5300 will switch to profile 3 Note that before switching to profile 3 device detaches GPRS session Operator search is performed every 15 minutes If no operators are entered in any profile it can have influence on GPRS sessions IF GPRS sessions are attaching detaching every 15 minutes it means configuration of FM5300 is performed incorrectly 7 2 Depending on I O Event Profile Switching Another profile switch method is based on I O event Events happen when the value of enabled I O intersects thresholds enter exit on both predefined by High and Low level
49. onality will operate correctly only if device is mounted into the vehicle in proper position Eco Driving functionality operation is based on accelerometer It is important to mount FM5300 device correctly to avoid functionality malfunctions first condition In the picture below Figure 45 mounting recommendations are displayed Please note that beside those recommendations 1 You can choose how FM5300 is deployed It means that that there is no effect to measurements if FM5300 top bottom side pointing up or down 2 Device can be deployed at any place in the car TO BOTTOM BOTTOM TOP Figure 45 Correct mounting position of the FM5300 in the vehicle To Eco Driving work properly device connection pins socket must be pointing towards vehicle front side Deviation of 2 are allowed But it should be as straight as possible Deviation of max 15 is allowed Figure 46 Figure 46 MAX deviation from horizon plane of FM5300 mounting Gi TEL TONIKA Figure 47 Horizontal position MAX deviation of FM5300 mounting Horizontal position must be as flat as possible parallel with vehicle plain 12 1 2 Configuration Parameters used with Eco driving functionality Figure 48 Table 18 ECO Driving parameters description ECO driving configuration Description parameter name Enable Disable Eco Driving functionality Value which can be reached while accelerating without triggering harsh Max
50. ost computer There are only 14 IO parameters that could use Averaging Constant Digital Inputs 1 4 Analog Inputs 1 4 Battery Voltage Battery Current External Voltage PDOP HDOP Speedometer I O parameters Current Profile Digital Output 1 4 GMSS Status Movement Active GSM Operator iButton ID GSM Signal Deep Sleep Cell ID Area Code PCB Temperature Temperature Sensor 0 2 Fuel Counter cannot use Averaging constant functionality One cycle equal to 20 ms 7 PROFILE SWITCHING FM5300 has 4 profiles saved in Flash memory of the module Every profile has a list of parameters which enables FM5300 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 behaviours Global parameters contain settings that are common for al 4 profiles This means that if you set FM5300 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 profile has a list of parameters Global parameters are common for all profiles Figure 31 GLOBAL PARAMETERS Profile 1 Profile 2 Profile 3 Profile 4 oY STEh oY STE ov STE oY STEh Gohl Gohl Gohl Gohl FEATURES
51. ries structure Byte 1 Byte 2 Byte 3 Bytes A Bits 0 7 Bits 8 15 Bits 16 24 Bits 25 Bits in a byte are numbered starting from least significant bit A field of 25 bits would consist of bits O to 24 where 0 is the least significant bit and bit 24 most significant bit 10 1 2 Structure 6 3 table SMS data structure SMS Data Structure Codec ID Timestamp Element Count GPS Data Byte align padding IMEI 8 bits 35 bits 5 bits Element Count 64 bits e Codec ID packet ID 4 e Timestamp Time corresponding to the first oldest GPS data element represented in seconds elapsed from 2000 01 01 00 00 EET e Element Count Number of GPS data elements e GPS Data GPS data elements e Byte align padding Padding bits to align to 8 bits boundary e MEI IMEI of sending device as 8 byte long integer The time of only the first GPS data element is specified in Timestamp field Time corresponding to each further element can be computed as e lementTime Timestamp 1 hour elementNumber 6 4 table GPS data GPS Data Differential l Valid Element Cords Longitude Diff Latitude Diff Longitude Latitude Speed Differential Cords 1 Differential Cords 0 1 bit 1 bit 14 bits 14 bits 21 bits 20 bits 8 bits e Valid Element Valid Element 1 there is a valid GPS Data following Valid Element 0 no element at
52. riteria 253 ECO driving type 6 3 2 4 2 1 0 configuring I O configuration has 8 main parts Figure 30 O 2 Nr 1 0 Property input Priority High level Low level Generate event Monitoring Di 6 Averaging constant 10 ei d Figure 30 FM53 I O Configuration 1 Table 11 I O Configuration window description DESCRIPTION Property inputs list Enable Disable chosen property input allows enabling I O element so it is added to the data packet and is sent to the server By default all I O elements are disabled and FM5300 records only GPS part It is also possible to set CAN message instead of any I O element this way CAN element will be sent to the server instead of chosen element See CAN description below for more details Priority AVL packet priority There are Low High Panic SW21 SW22 SW23 and SW24 priorities Regular packets are sent as Low priority records When low priority event is triggered FM5300 makes additional record with indication that the reason for that was IO element change When High priority is selected module makes additional record with high priority flag and sends event packet immediately to the server First it tries it send using GPRS if GPRS fails it sends AVL packet using SMS mode if SMS is enabled in SMS settings Panic priority event forces module to send AVL packet to server and switch operating profile to Profile 4
53. s designed to dramatically reduce power consumption It is separate mode and certain conditions must be fulfilled to switch from Normal operation and enter this mode Detailed information about how FM5300 enters exits Deep Sleep Mode and what functions does FM5300 perform while in this mode will be found in 11 chapter 5 3 Accelerometer FM5300 has a built in 3 axis accelerometer which allows device to indicate if vehicle is moving or not as well as measure acceleration Accelerometer sensitivity can be configured it has 3 configurable global parameters Movement Sensitivity and start stop timeouts define time intervals in seconds To indicate that vehicle is moving FM5300 constantly in frequency of 10 Hz checks for g force change on X Y and Z If measured g force keeps exceeding the defined limit in Movement Sensitivity Figure 10 for defined time interval in Movement Filter Start field then vehicle is considered as moving Same settings for idle indication apply if g force change is less than the one defined in Movement Sensitivity field for time interval defined in Movement Filter Stop field then vehicle is considered as idle not moving Example for default parameters Movement Filter Start 1 and Movement Filter Stop 30 means that movement will be detected after 1 second and stop will be detected after 30 seconds of inactivity Accelerometer settings Movement sensitivity Movement Filter Star
54. t Movement Filter Stop Figure 10 Accelerometer settings 5 4 Virtual Odometer Virtual odometer is used to calculate travelled distance in FM5300 as a separate I O element When FM5300 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 FM5300 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 Virtual odometer as an I O element can be also used with Trip feature read chapter 5 7 2 5 5 Voice Functionality FM5300 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 In Global Parameters Call Settings section Figure 11 has four parameters Call number Call trigger Ringtone and Auto answer To initiate a call an appropriate digital input has to be selected as a Call Trigger To trigger the call selected input has to be connected to the ground When the call is triggered FM5300 dials the number which is defined in Call Number field To initiate a call to FM5300 dial a number of the SIM card that is inserted in FM5300 When FM5300 has
55. t Load Save Load Defaults Save to File Load from File Reset device Additional Buttons Description SIM PIN allows to enter PIN code if inserted SIM card has activated PIN code security Add Keyword buttons are used to protect configurator from unauthorized access to Change Keyword configuration Switch Security Off Keyword is 4 10 symbol length It If keyword is set every time user reconnects FM5300 to USB or COM1 port he will be asked to enter valid keyword when connecting FM5300 to configurator User is given 5 attempts to enter valid keyword before blocking configurator Gi TEL TONIKA 6 2 2 Information area FM5300 information area is divided into 2 parts located on the top right and bottom of the configurator When configurator is connected to the device via USB or COM1 port all necessary information about device is shown here e IMEI unique number for every FM5300 and usually servers recognize different devices by this number SOURCE configuration source device or file VERISON firmware version of the device STATUS status bar SECURITY STATUS status of the configurator security SIMPIN STATUS status of SIM card in the device 6 2 3 Profiles global parameters selection area FM5300 has 4 user editable profiles stored in Flash no 1 4 memories and one extra profile stored in Flash no O which cannot be edited by user Profile from Flash no O is used by system and cannot b
56. ta elements 00000002 Server 9 3 Sending Data Over UDP 9 3 1 UDP Channel Protocol UDP channel is a transport layer protocol above UDP IP to add reliability to plain UDP IP using acknowledgment packets The packet structure is as follows 5 7 table UDP packet structure Data Field Constant Prefix Field 5 3 1 subsection Data Length Field PacketID Packet Type Data 2 Bytes 2 Bytes 1 Byte Data Length Field Packet length excluding this field in big endian byte order Packet ID Packet id unique for this channel Packet Type Type of this packet Data encoded data variable 5 8 table Packet type field values Value Packet Type O Data packet requiring acknowledgment 1 Data packet NOT requiring acknowledgment 2 Acknowledgment packet Acknowledgment packet should have the same packet id as acknowledged data packet and empty data payload Acknowledgement should be sent in binary format 5 9 table 5 9 table Acknowledgment message Constant Field Data Length Field PacketID Packet Type 2 Bytes 2 Bytes 1 Byte e Data Length Field 0x0003 e Packet ID same as in data packet e Packet Type 0x02 9 3 2 Sending AVL data using UDP channel AVL data are sent encapsulated in UDP channel packets 5 10 table 5 10 table UDP channel packet structure AVL data encapsulated in UDP channel packet AVL packet
57. tected Output Duration Example Set Acceleration Detection Sensitivity to 0 5 In this case driver can accelerate not Acceleration Detection Sensitivity Braking Detection Sensitivity Cornering Detection Sensitivity longer than 0 5 second so Eco Driving functionality can detect acceleration If acceleration lasts 1 2 seconds two harsh acceleration events will be detected generated 12 2 Overspeeding Scenario Overspeeding Helps to prevent from exceeding fixed speed and inspects driver if needed DOUT1 is controlled by scenario for user needs to manage buzzer LED etc 12 2 1 Mounting Requirements and Working Conditions 1 Only one scenario on corresponding Digital Output can be enabled at once 2 Scenarios on Digital Output No 1 and Digital Output No 2 can be used simultaneously 3 Device module mounting position doesnt have any influence for correct scenarios activity 12 2 2 Configuration Overipeeding MM Max Allowed Speed 90 kmh Figure 49 Overspeeding configuration parameters Overspeeding Enable Disable Overspeeding Max Allowed Speed Set speed limit to reach without triggering Overspeeding event 12 3 Immobilizer Scenario Immobilizer Vehicle can be used only if iButton is connected In this scenario iButton list is not used connect any iButton to pass Immobilizer security DOUT2 is controlled by scenario for user needs 12 3 1 Configuration Immobilizer Disable 7
58. thresholds SW21 SW22 SW23 SW24 stand for Switch to profile No X after event happens FM5300 switches to defined profile Using profile switching you can create smart applications SW2X actions can be performed only if Profile change on event is enabled in Global parameters Pictures below illustrate profile switching depending on digital events 2 H 1 L 1 Event on enter 3 H 1 L 1 Event on exit Profile y Figure 33 Digital input event criteria 7 2 1 Example 1 Configuration of Profile1 to switch to Profile2 on DIN1 value change from 0 to 1 Bytes Available Figure 34 Switch to profile on event 1 7 2 2 Example 2 Configuration of Profile2 to switch to Profile1 on DIN1 value change from 1 to 0 St CC E oystem GSM Enabled Features IO IL Generate event Evert i Averaging constant 10 Bytes Available Figure 35 Switch to profile on event 2 8 DATA ACQUISITION Data can be acquired using GPS or IO elements GPS data is for basic vehicle tracking data acquisition by IO elements gives more specific information 8 1 GPS data acquisition There are three ways of GPS data acquisition which are configured in Features gt sMode menu Figure 36 Device checks angle distance and time differences with last saved record If differences are greater than configured record are generated Checking sequence First is checked angle then distance and the l
59. tput OFF 120 Cc Drain current Digital Output ON Recommended Operating Conditions 300 mA Static Drain Source resistance Digital Output ON 300 mOhm DIGITAL INPUTS kOhm Input resistance DIN1 DIN2 DIN3 Supply Input Voltage Recommended Operating Conditions voltage LA 8 CHARACTERISTIC DESCRIPTION Input Voltage threshold DIN1 NI ul e 5 et lt O c o m D et gt oO Loi SR el O z Z N z Z w z Z N un ANALOG INPUTS Input Voltage Recommended Operating Conditions Rangel Ww 3 Input resistance Range1 120 kOhm Input Voltage Recommended Operating Conditions e Range Input resistance Range2 147 kOhm OUTPUT SUPPLY VOLTAGE 1 WIRE Supply Voltage W Ww 3 gt mg Oo O sy 3 Output inner resistance Output current Un gt 3 0V 130 3 gt Short circuit current Usut 0 CAN INTERFACE O SE 3 Internal terminal resistors CAN bus kOhm LA LO LA O Differential input resistance 52 Recessive output voltage Differential receiver threshold voltage oO U N No Um Gu CH LA CH Common mode input voltage 1 wire Supply voltage PIN is dedicated for 1 wire devices ONLY do not use it for any other purpose 2 5 Absolute Maximum Ratings Table 3 Absolute maximum ratings CHARACTERISTIC DESCRIPTION EE Supply Voltage Absolute Maximum Ratings 32 Digital ou
60. tput clamp threshold voltage Absolute 36 Maximum Ratings larain 2MA Digital Input Voltage Absolute Maximum Ratings Analog Input Voltage Absolute Maximum Ratings 5 Voltage on Data Input Output 1 Wire Absolute Maximum Ratings Ratings 3 CONNECTION AND PINOUT Voltage on Supply Voltage 1 Wire Absolute Maximum Ratings 3 1 SIM card insert scheme Gently open FM5300 case using screwdrivers Device is ready Assemble device as shown and put screws into the holes Screw all 4 screws Take off FM5300 case and insert SIM card as shown A Ge 3 2 Installing FM5300 drivers Software requirements e Operating system 32 bit and 64 bit Windows XP with SP3 or later Windows Vista Windows 7 e MS NET Framework V3 5 or later http www microsoft com or http avl1 teltonika It downloads tavl Framework dotnetfx35setupSP1 zip Drivers Please download Virtual COM Port drivers from Teltonika website htto avi1 teltonika lt downloads FM11 vcpdriver v1 3 1 setup zi Installing drivers Extract and run VCPDriver_V1 3 1 Setup exe This driver is used to detect FM5300 device connected to the computer Click Next in driver installation window figures below InstallShield Wizard Welcome to the InstallShield Wizard for Virtual COM Port Driver 1 3 1 The InstallShield Wizard will install Virtual COM Port Driver on your computer To continue click Next Figure 2 Driver installation
61. ve record event generation types examples I O speed is taken as I O value example please refer to Figures below 1 On Zone Exit High Level Low Level Time t Event Generated Record Saved Figure 40 Event On Zone exit 3 On Both High Level Low Level Event Generated Record Saved Figure 42 vent On both 5 Hysteresis High Level Low Level Time t Event Generated Record Saved Figure 44 Evenet on Hysteresis 2 On Zone Entrance High Level Low Level Time t Event Generated Record Saved Figure 41 Event On Zone entrance 4 Monitoring High Level Low Level Event Generated Record Saved Figure 43 Monitoring Event on Zone Entrance record is generated then actual source value input is between High and Low level ranges which are set in configuration Event on Zone Exit record is generated then actual source value input increases and become higher than High level and Low level values Event on Both record is generated then actual source value input increases decreases and becomes higher less than high and low level declared values Monitoring no event at all I O values are recorded only when other trigger will work GPS acquisition or other I O trigger Hysteresis record is generated then actual source value input becomes higher than High level value and decreasing becomes less than low level value Event on Change record is generated on every source value change
62. version can be downloaded from official Microsoft web page Module configuration is performed over USB cable or COM1 Configuration process starts from starting FM5300 Configurator program and then connecting to FM5300 device via Connect button located on the top left corner of configurator If one of the communication sources USB cable or COM1 is connected to the device configurator will detect it automatically and if connected successfully IMEI Version fields which were empty now are filled with certain numbers depending on Modem IMEI and firmware version of your device Figure 12 St CC E E KKK Configurator Version 0 0 2 10 Disconnect COM Pe 115200 ad S Profile 1 Profile 2 Profile 3 Profile 4 Gk IMEI 356307040262528 SYSTEM Deep Sleep Settings Deep Sleep Mode Enable GSM Features Object Motion Detection Settings i Stop Detection Source Ignition SE Security status Unsecured SimPin status working no pin required Figure 12 FM5300 Configurator window If both USB cable and COM1 are connected to the device you will be prompted to select communication source Figure 13 Szbelprtltewee BAR Supported Versions 00 02 xx Device on COM IMEI 356307040262528 Version 00 02 28 Security status Unsecured Device on COM1 IMEI 356307040262528 Version 00 02 28 Security status Unsecured Device found 2 Figure 13 FM5300 Communication source sele
63. y 9 1 5 GPS Element Table 16 GPS element structure Longitude Latitude Altitude Angle Satellites Speed 4 Bytes 4 Bytes 2 Bytes 2 Bytes 1 Byte 2 Bytes e Longitude x e Latitude K Altitude in meters above sea level Angle in degrees 0 is north increasing clock wise Satellites number of visible satellites Speed speed in km h 0x0000 if GPS data is invalid Longitude and latitude are integer values built from degrees minutes seconds and milliseconds by formula lt gt where d degrees m minutes s seconds ms milliseconds p precision 10000000 If record is without valid coordinates there were no GPS fix in the moment of data acquisition Longitude Latitude and Altitude values are last valid fix and Angle Satellites and Speed are 0 If record is without valid coordinates there were no GPS fix in the moment of data acquisition Longitude Latitude and Altitude values are last valid fix and Angle Satellites and Speed are 0 Event IO ID N of Total IO If longitude is in west or latitude in south multiply result by 1 To determine if the coordinate is negative convert it to binary format and check the very first bit If it is 0 coordinate is positive if it is 1 coordinate is negative Example e Received value 0x20 0x9c Oxca 0x80 e Converted to binary format 00100000 1001
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