User Manual - GPSWOX.COM
Contents
1. New Microsoft Excel Worksheet 2 xlsx Microsoft Excel Ghart Tools File Home Insert Page Layout Formulas Data Review View Design Layout Format mmm 9 ae we a Lisi Change Save As Switch Select PE ws wg Chart Type Template Row Column Data e Type Data Chart Layouts Chart Styles id i e a Chart 2 vi fe SERIES Sheet1 C 3 C 13 Sheet1 SD 3 D 13 1 E F G H l J K L M N 2 v A a Series1 p 3 A D C 2 4 Oe PO Hir 5 Delete 6 g Reset to Match Style H a Change Series Chart Type KS Select Data 5 p 3 D Rotation 10 Add Data Labels S Add Teendtine 12 een 8 Format Data Series B Ead 15 0 2 1A Figure 75 Adding a trendline Select a polynomial type of 5t order trendline Also select Display equation on chart checkbox Figure 76 77 File Change New Microsoft Excel Worksheet 2 xlsx Microsoft Excel Chart Tools Home Insert Fage Layout Formulas Data Review View Design Layout Format E E Save As Switch Chart Type Template Row Column Type Data Select Data Estate Chart Styles M Char b gglelelosglsleelerglelslzalslols ele Jeck Format Trendline Line Color Line Style Shadow Glow and Soft Edges Trendline Options eee PUSS eS eee ea 540 091x7 0 3225x3 2 9353 34 39x 30 068 Le J a Series L Poly Series12. Analog Input 3 ri Analog Input 4 Im Profile Bat Voltage 13 Fuel level meter 2 14 Fuel temperature 2 P CULE 16 GPS HOOF 17 External Voltage Im 18 GNSS Status 19 Movement Odometer Value rm GSM Operator Speed Km h Button ID GSM Signal Deep Sleep Cell ID Area Code PCE Temperature Dallas Temperature 1 Dallas Temperature 2 Dallas Temperature 3 gt Fuel Counter Enabled RFID ID Reserved Reserved Reserved Figure 72 FM5300 I O Configuration Enable ID11 and ID12 or ID13 and ID14 or all four I O elements Figure 733 at the same time because two LLS sensors can be connected to FM5300 at the same time for example if a vehicle has two fuel tanks 70 In Enabled Fuel level meter 1 D Enabled sl Generate event Monitoring Averaging constant 10 Bytes Available Leg Figure 73 I O Configuration Note FM5300 has the possibility to connect to two LLS sensor devices at the same time using both COM ports When only one LLS sensor is connected FM5300 sends the data in kvants and additional server configuration is required To get correct data on the server it has to calculate the values using polynomial calculation When two LLS sensors are connected the same is applied but it is Gi TEL TONIKA possible to enter the polynomials into the configuration of FM5300 and it sends the sum of both LLS sensors but the data sent is already in liters so
3. N N Gees supported 110 X 0 diagnostics is not supported 1 diagnostics is 64977 FMS supported Standard 2 reserved interface 3 don t care 30 16 Requests supported X 111 0 3 0 request is not supported 1 request is supported 2 reserved 3 don t care N WO Gi TEL TONIKA 65217 High 31 17 High resolution total 4 112 O 21055406 km Resolution vehicle distance X Vehicle Distance 65216 Service Service distance 160 635 167040 Information km 0 Motion Not Detected 1 Motion Detected 1 Driver Available 2 Work 3 Drive 4 Error 5 not available 0 Rest 1 Driver Available 2 Work 3 Drive _ Error not available 1 15min bef A bh 2 4 5h reached 3 15min bef 9h 4 9h reached 5 15min bef 16h 6 16h reached 8 not available 0 Normal 1 15min bef A bh 2 4 5h reached 3 15min bef 9h 4 9h reached 5 15min bef 16h 6 16h reached 7 Error 8 not available 1 Card Present 1 Card Present Direction indicator 0 Forward BN ed beste a a Tachograph 0 Normal performance X Performance 1 Performance Analysis 0 No Handling Information 1 Handling Information 44 30 System event X 1 125 0 No Tacho Event el ed e a a speed X Vehicle Speed km h 65262 Engine engine coolant 40 210 oC Temperature 1 temperature X Engine Cooilant
4. O 0 priority ID 301 O 0 Low level ID 303 9999999 O 0 logic operand ID 304 O 0 averaging constant ID 305 O 0 Low level ID 303 Parameter defines low value of triggered I O property This parameter is used to set thresholds for I O properties to generate events Table 16 Minimum Low Value Basic Recommended Goes with depends on Value Basic value parameters type O 0 priority ID 301 9999999 O 0 High level ID 302 O 0 logic operand ID 304 O 0 averaging constant ID 305 O 0 logic operand ID 304 Parameter defines when event is sent O is event on exit 1 on entrance 2 on both 3 monitoring 4 hysteresis 5 on change Table 17 I O Logic Operand Minimal Maximum Recommended Goes with depends on Value value value value parameters type O 0 priority ID 301 O 0 High level ID 302 5 5 O 0 Low level ID 303 O 0 averaging constant ID 305 O 0 property parameter ID 300 O 0 averaging constant ID 305 Gi TEL TONIKA Parameter defines I O property sample length to average If no averaging needed default value is 1 Table 18 I O Averaging constant Maximum Recommended Goes with depends on Value value value parameters type O 0 property parameter ID 300 1 99999999 1 O 0 priority ID 301 O 0 High level ID 302 O 0 Low level ID 303 O 0 logic operand ID 304 Other I O property elements can be configured in the sa
5. CAN button Fig 58 CAN configuration menu will be opened Figure 622 Load Save Loac Profile 1 Profle 2 Profle 3 Profle 4 Globe Figure 62 Entering CAN configuration e SCAN scans once for available messages on CAN bus e Monitoring toggles scanning of messages on CAN bus every 3 seconds e Offline Configuration enables CAN configuration when FM53xx is not connected to CAN bus e Auto CAN tab configure CAN by selecting available messages from CAN bus e Manual CAN tab Configure CAN by manually entering CAN message ID and data mask Figure 63 CAN configuration menu Configuration To start CAN configuration push SCAN button A table of all available CAN messages will appear Fig 3 Description of columns e Category shows CAN message e Parameter shows configurable parameter name e Value shows scanned value of parameter e Send data to server allows to choose the type of data when it s generated o Disabled Data will not be collected o On low priority records will be generated as low priority events o On high priority records will be generated as high priority events and immediately sent to server via GPRS if GPRS is available o On panic records will be generated as panic priority events and immediately sent to server via GPRS if GPRS is not available records will be sent via SMS messages Data acquisition type allows to choose when records are gener
6. 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 i Cancel Figure 2 Driver installation window This will launch the 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 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
7. 3 4 Status LED Table 5 Status LED Operation Behaviour Blinking every second Blinking every 2 seconds Blinking fast for a short time Blinking fast constantly Off Device is not working Device firmware being flashed 10 11 12 13 14 15 16 17 3 5 Socket 2x10 pinout EXT BAT OUT OUT AIN AIN DIN DIN 4 IW PWR CAN L GND EE eg H IW data ale CAN H O FF VCC 10 30 V DC 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 The function of these 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 Gi TEL TONIKA Digital output Channel 4 Open collector output Digital output Channel 1 Open collector output This pin is used connected with pin 10 Ext Battery The function of these 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 accumulat
8. 2 5 Electrical characteristics Table 2 Electrical characteristics Typ CHARACTERISTIC DESCRIPTION E SUPPLY VOLTAGE Supply Voltage Recommended Operating Conditions 11 8 Supply Voltage U9 O LA DND ag 9 5 for internal rechargeable battery charging proper functioning POWER SUPPLY CURRENT HARDWARE VERSION WITH INTERNAL BATTERY 3 gt Deep Sleep average Icc ds Sleep average Icc ds Vcc 12V mA OO lm D LP 3 3 D gt D gt Sleep average Icc ds Vcc 24V Ucc 12 6V all modules fully working internal battery is charging Icc1 3 gt Ucc 12 6V all modules fully working internal battery is charged Icc2 Ucc 25 2V all modules fully working internal battery is charging Icc3 e 3 gt 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 N Ex nn 3 gt gt nn 3 gt Ucc 12 6V all modules fully working internal battery is charging Icc5 U1 OH OH 3 gt Ucc 12 6V all modules fully working internal battery is charged Icc6 Ucc 25 2V all modules fully working internal battery is charging Icc7 N LO OO 3 gt Ucc 25 2V all modules fully working internal battery is charged Icc8 DIGITAL OUTPUT OPEN DRAIN GRADE 123 3 DIGITAL INPUTS Input resistance DIN1 DIN2 DIN3 kOhm Drain current Dig
9. Note CAN monitoring is FM5300 configurator function it does not enable data sending to server In order to configure data sending to server refer to Configuration section Offline configuration When FM5300 device is not connected to CAN bus you can configure CAN data sending by pushing Offline configuration button When offline configuration is enabled a configuration table of all FMS standard CAN data is shown AutoCAN ID list Table 47 AutoCAN ID list name P FMS P FMSDAT Bytes Brake switch 0 1 0 pedal released 1 pedal depressed 2 Also D IS Ip cruise control active 0 1 65265 Cruise 0 switched off Control Vehicle 1 switched on Speed 4 4 clutch switch 1 82 0 1 0 pedal released e 0 off disabled 1 Set Electronic position 1 X At Hen Speed X 2 not available controter 2 Ge e 65276 Dash Display engine speed X 0 2105540607 5 Liters 61444 1 102 Electronic Engine Axle weight Controller 1 65258 Vehicle Engine total hours of Operation X Weight vehicle identification Max 24 number X SH version supported 1 CO 0 8031 875 rpm 11 25 Tire No 1 89 103 32766 kg 0 214748364 Hours 105 108 Max 24 ASCII bytes 4 ASCII bytes Version format ab cd 15 N OY kA N 65253 Engine Hours Revolutions HOURS 65260 Vehicle Identification py O E N 0 0
10. battery FM5300 can enter deep sleep mode standby mode if ALL of these conditions are met e FM5300 has to be configured to work in Deep Sleep mode Start up 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 is more than 60 seconds Data Acquisition Mode settings USB cable is not connected FM5300 exits deep sleep mode if ONE of the following conditions are true e Movement by accelerometer is detected depends on accelerometer start settings e Ignition DIN1 is turned on driven logic high e USB cable is connected e HIGH or PANIC priority eventual record is detected Gi TEL TONIKA While being in deep sleep mode FM5300 e can save periodical or eventual records e send data to server Note If there is no need to save or send periodical data FM5300 has 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 records saved in deep sleep mode contain 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 10 FEATURES AND SCENARIOS 10 1 Eco Driving Scenario Four scenarios are available on FM5300 device Digital Out
11. 011 9999999 U32 seconds Min Distance in 012 1000000 U32 meters Min Angle in degrees Min Saved Records a Min Send Period in 9999999 seconds SS GPRS Week Time sig tt ee o oo o o Geofencing parameters chapter 6 3 1 3 4 1 Gi TEL TONIKA Frame Border in meters Zone 1 Shape 0 BE 1 Rectangle Zone 1 Priority 0 Low 1 High 2 Panic 4 5 6 7 SW21 SW22 SW23 SW24 Zone 1 Generate Event 0 no event 1 on enter 2 on exit 3 on both Zone 1 Longitude 180 ooo X1 Rectangle X Float 9999999 a o ve SES TL Float Circle Zone 1 Latitude Y1 Rectangle Y Circle Zone 1 Longitude X2 Rectangle R 035 Circle Zone 1 Latitude Y2 Rectangle None Circle O ignition 1 iButton o ee 6 7 SW21 SW22 8 710 FFFFFFFF o 0 Enable Disable 291 0 Disable 1 Enable 0 asoma 2 Le la mm in seconds SW23 SW24 fete ts Event Generating 0 no event 1 on enter 2 on exit 3 on both Features parameters chapter 5 7 Digital Output No 1 Usage Scenarios 0 disable 1 Eco Driving 2 OverSpeeding Priority 0 Low 1 7 exl 3 Radius in meters 295 0 9999999 10 10 u2 Max Allowed REL AutoGeofencing parameters chapter 6 3 1 3 4 2 High 2 Panic 4 5 iButton List chapter 6 3 1 3 5 0 5 e 10 0 E SC EE t Max Braking For
12. 92 15 EE vane EEA EOE ENEE 93 EN WE et eg Te dE 94 A Ee 94 15 3 CONNECTING LLS TO FM5300 cc cccecceccecceceecsececceceeceecsececceesecsecsececeesseeseeeceesseseeeeeeesoesaes 94 16 GPRS COMMANDS eege 102 17 DEBUG MODE iascncsecrencutcnccsextavecenesccecnestanenesseaeananctacaeaess anusesueavesenossenstuacsnenaducacaieeeennenente 104 18 CHANGE LOG TT 105 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 This sign on the packaging means that the electric and electronic equipment to be utilized must be stored separately 1 2 Instructions of safety This chapter contains information on how to operate F
13. Acceleration Force acceleration event via Grane rare Value which can be reached while braking without triggering harsh braking event Value which can be reached while cornering without triggering harsh Max Cornering Force cornering event 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 output duration after harsh acceleration event detected Output Duration Braking Active Output Set active output duration after harsh braking event detected Duration Cornering Active Set active output duration after harsh cornering event detected Output Duration Acceleration Detection Sensitivity Braking Detection Sensitivity Cornering Detection Sensitivity Example Set Acceleration Detection Sensitivity to 0 5 In this case driver can accelerate not 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 and generated Data output Eco Driving fu
14. Button ID a 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 Dese 0000000000000000 12 ooooooo000000000 Figure 28 Features gt iButton Configuration 89000000FBC52B01 iButton value must be entered as it is written on it 6 3 1 41 0 lf all I O 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 1 4 1 FM5300 available I O list Table 9 PERMANENT I O elements list description Permanent I O elements are always sent with every record to server if enabled Property Property Name Bytes H 1 Digital Input Status1 2 Digital Input Status2 3 Digital Input Stats 4 Digital Input Status4 9 Analoginput1 10 Analoginput2 at 19 21 GSMs 2 I Description Tf 7 7 OO OO oa a 0 oy OO COOC PRL NN ejeje Voltage mV 0 30 V lt 2 ct DI oo D 3 lt LA CH lt H Voltage mV 0 30 V 66 External Power Voltage 68 Internal Battery Current GNSS status 1 Dallas Temperature 1 Dallas Temperature 2 Dallas Temperature 3 lt 2 et Q oO D 3 lt LA CH lt Value in scale 1 5 Value in scale 1 4 Value in km h 0 xxx km h
15. Temperature Tachograph Gi TEL TONIKA 65269 Ambient Ambient Air 273 1770 oC Conditions Temperature X Ambient Air Temperature Las Identification Identification Driver ID Stentneston Identification X Driver ID 65266 Fuel 5 5 Fuclratex A pee ee Economy 51 36 Instantaneous Fuel 136 0 125 5 km litre Economy X 64932 PTO At least one PTO 0 No PTO Drive is Drive engaged Engaged Engagement 1 At least one PTO drive is engaged 2 Error 3 not available 64777 High High resolution O 4211081 215 Resolution Fuel engine total fuel used litres Consumption Liquid 13 RFID Radio frequency identification RFID is the use of a wireless non contact system that uses radio frequency electromagnetic fields to transfer data from a tag attached to an object for the purposes of automatic identification and tracking FM5300 can be configured in a way to use with an RFID reader When an RFID of some sorts typically a plastic card with a magnetic line is used with an RFID reader which is connected to FM5300 the device creates a record with the data that the RFID reader has read and can be sent to a server with all other information RFID ID is activated like an I O parameter Figure 66 WoO Ia Enabled RFID ID ll Enabled sl mmm Bytes Available 100 Figure 66 RFID I O parameter To set up FM5300 so it can be connected to an RFID reader Global parameters ha
16. and configuration 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 50 records Geofence 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 a 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 FM
17. at least 6 km h Min angle Figure 40 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 I O elements list description and in Table 10 EVENTUAL I O elements list description Configuration Data acquisition by I O elements can be configured selecting I O menu in configurator refer to chapter 6 3 1 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 Low Level Low Range of value input Averaging constant see detailed description in chapter 6 3 1 4 2 Event generation There are five record event generation type examples I O speed is taken as I O value example please refer to Figures below Speed 1 On Zone Exit Km h 100 High Level 20 Low Level Event Generated Record Saved Figure 41 Event On Zone exit Time t Speed 3 On Both Km h 100 High Level 20 Low Level Time t Event Generated Record Saved Figure 43 Event On both Speed 2 On Zone Entrance Km h 100 High Level 20 Low Level Event Generated Record Saved Figure 42 Event On Zone entrance Time t 4 Monitoring Speed Km h 100 High Level 20 Low Leve
18. attempts to enter a valid keyword before blocking the configurator Gi TEL TONIKA Figure 14 To configure 3 profile choose the TAB named Profile 3 and all configurable parameters of this profile will be available to change 4 FM5XXX Configurator Version 1 1 1 7 12 x File Device Help Disconnect COMi0 X Load Defaults Save to File Load from File Reset device Get Actual Profile Add Keyword Profile 1 Profile 2 Profile 3 Profile4 Global Parameters IMEI 356307040206962 Source Device version 01 01 04 Hardware Version Int Bat NVS MN Y L System Sleep Settings Sleep Mode Disable DI CG Features 8 Sleep Timeout 1 Security status Unsecured SimPin status no sim Figure 14 FM5300 Configurator profiles loading window Profile successfully read from flash 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 15 Profile successfully read From Flash Security status Unsecured SimPin status working no pin required Figure 15 FM5300 Configurator profiles saving information 6 3 Parameters Configuration Global parameters Settings Global parameters do not depend on selected profile they are common for all profiles To configure these parameters choose the TAB named Global Parameters and make a
19. be notified to driver through a pop up alert on Garmin screen e Garmin provides a virtual keyboard on device through a touch screen format for all text communication Stop Destination Protocol e Garmin can display a list of Stops Jobs reported to the device in a separate icon called My Stops e Driver has ability to navigate directly to Stop from list e Garmin can provide status on current Stop in progress e Is driver stopped at location e How far has Driver progressed through the list of Stops e Garmin can also provide confirmation that driver has received a particular Stop read the details or deleted it from list e Can provide confirmation that a Stop has been completed Estimated Time of Arrival Protocol e Dispatcher office can request the ETA of the current stop job in progress e Garmin will notify the actual time of arrival as well as distance remaining to stop Auto Arrival at Stop Protocol e This feature is used to tell the Garmin PND to automatically detect that it has arrived at a Stop and then to prompt the driver if they would like to mark the Stop as done and begin navigating to next Stop on the list e Auto arrival can be determined by how long the unit is stopped close to the destination in the event driver has to park and walk or by how close the unit needs to be to the destination before the Auto arrival feature is activated Data Deletion Protocol e Dispatch office has the ability to
20. lt password gt lt command gt Example opa opa getgps Table 28 SMS command list and description Response getstatus Modem Status information getweektime Current device time Day of Week and amount of minutes passed since start of week List of currently used and available GSM operators readops Emergency gsm operator readout from active profile 1 2 3 1 operators 1 20 2 operators 21 40 3 operators 41 50 Nmea error debug sms getcfgtime Date and Time of last successful configuration getgps Current GPS data and time i i profile to load cpureset Reset CPU TN i deleterecords Delete all records saved on FLASH Mo i i Readout digital inputs and outputs analog inputs Readout input value according entered ID ID value setdigout Set digital outputs XXXX Y1 Y2 Y3 0 OFF 1 ON Y4 Y1 timeout for DO Y2 timeout for DO2 Y3 timeout for DO3 Y4 timeout for DO4 getparam Readout parameter value according entered ID ID value setparam Set parameter value according entered ID and Value Device runtime system information Gi TEL TONIKA E 1 ID value 2 New Parameter Value flush Initiates all data sending to specified target server HHHH HHH II IMEI 2 APN 3 LOGIN 4 PASS 5 4 IP 6 PORT 7 MODE 0 TCP 1 UDP delete_all_sms Delete all read SMS _ TN 11 1 getstatus Table 29 getstatus Response details Data Link I
21. menu Every FMS53 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 1 0 6 3 1 1 System Settings System settings have 1 configurable parameter Figure 17 e Sleep settings where user can disable sleep turn on or deep sleep SYSTEM oystem Sleep Settings Sleep Mode Deep Sleep sl Disable Sleep Timeout Enable Deep Sleep Features Figure 17 System Settings Configuration 6 3 1 2 GSM Settings 6 3 1 2 1 GPRS GPRS defines 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 is used APN should be entered as chap lt APN gt or pap lt APN gt l e if operator is using APN internet with CHAP authentication it should be entered as chap internet Information about APN and authentication type should be provided by your GSM operator GPRS data sending Settings System SE teen E is ome Max Upload in Home 100 MBO Send SMS to Number None SCY Features Max Upload in Roaming mpm a H me Send SMS to Number Noe Figure 18 GSM gt GPRS Settings Configuration 6 3 1 2 2
22. the configuration of a certain profile X profile Y APN Z user login W password Get MinPeriod from the configuration of a certain profile X profile Set MinPeriod to the configuration of a certain profile X profile Y MinPeriod value Get MinDistance from the configuration of a certain profile X profile Set MinDistance to the configuration of a certain profile X profile Y MinDistance value Get MinAngle from the configuration of a certain profile X profile Set MinAngle to the configuration of a certain profile X profile Y MinAngle value GET SENDPERIODX Get SendPeriod from the configuration of a certain profile X profile SET SENDPERIODX Y Set SendPeriod to the configuration of a certain profile X profile Y SendPeriod value GET REPMRX Get MinRecords from the configuration of a certain profile X profile SET REPMRX Y Set MinRecords to the configuration of a certain profile X profile Y MinRecords value GET IBTNX Get iButton value from the configuration of a certain profile X profile SET IBTNX Y Z Set iButton value to the configuration of a certain profile X profile Y number on the list Z iButton value SET ROAMINGX Y Z GET REMIPX GET AURA GET REPRTX SET REPRTX Y GET REPDISTX SET REPDISTX Y GET REPANGX SET REPANGX Y Gi TEL TONIKA GET EXTERR Get extended errors value SET EXTERR X Set extended errors value
23. with FM5300M The memory can save 47 615 records Roaming enabling disabling Offline working mode Records importing using USB Remote logs reading via SMS GPRS 2 3 Mechanical features Table 1 FM5300 physical interfaces and operation environment Physical specification Operation environment GPS antenna connector MCX Operation temperature 25 C 55 C Tyco Micro MATE N LOK Storage relative humidity 5 95 O Socket 2x10 eis non condensating GSM GSM antenna connector SMA female Storage temperature outer shell female inner pin 40 C 70 C SB Mini USB socket Gi TEL TONIKA RS232 port channel 1 RJ45 socket RS232 port channel 1 RJ45 socket Port 1 Port 2 GPS GLONASS antena GSM antena mee Gren 315 im 76 8 ECH i 104 1 Figure 1 FM5300 view amp dimensions in mm tolerance 2mm 2 4 Technical Information about internal battery Ni MH Rechargeable battery 8 4V 550 mA FM5300 operating time with internal backup battery depends on temperature data sending frequency SMS and GPRS and accumulator age number of charge discharge cycles For example e Insleep mode anew FM5300 device operating time approximately 15 hours e In deep sleep mode 137 hours e Operating time for a new FM5300 device working in normal mode records are being acquired every 10 sec and sent in packets of 4 records every 60 sec is approximately 2 h 30 min
24. x x 0 1 Enable disable static navigation FM5300 is able to transmit its current state when connected to PC using PORT1 2 cable It is used to detect errors and provide information to possible solutions when operating as unexpected Contact our sales manager to get Terminal After launching it choose baud rate 115200 and hardware control none Click on Start Log button and save a new file Then click Connect to start receiving messages from FM5300 see Figure 800 2 Terminal 1 9b 20040714 by Br y i e x Baud rate Handehaking C 600 14400 57600 Ce none 1200 19200 C ATS CTS CC 2400 oo 28800 128000 C XON4SOFF C 4800 C 38400 C 256000 C ATSACTS 80N40FF C 9600 56000 custom C ATS on TX Settings Auto Dis Connect Time TI Streamlog customBR Fi Clear ICTs Ch Set font ASCII table Graph m Stay on Top E CR LF aen 27 sA GAA Recerve CLEAR _ Reset Counter 13 Counter 0 2 e a StartLog StopLog Dec Hex Bin Figure 80 Terminal Window To debug NMEA GPS data change baud rate value to 9600 and click connect 18 CHANGE LOG Date 1 Version Comments 2011 11 19 Description and table changes removed SMS command exec 2012 02 20 1 7 Added chapters 6 3 1 4 3 I O properties and 6 3 1 5 1 CAN interface parameters N KA 2012 02 23 1 8 Changes in 6 3 1 6 Configurable parameter values and Global parameter values tables 25 and 26 9
25. 0 CANHO CAN ID ID 772 CAN 0 CAN ID ID 772 Parameter defines CAN identifier ID can be 11 or 29 bits length Example 18FEE925 total fuel used Table 23 CAN ID Maximum Recommended Goes with depends on Value type value value parameters CAN O CAN Type ID ID 770 FFFFFFFF CAN O Output data mask ID 771 The rest CAN elements are configured in the same sequence CAN elements and parameters ID s are listed below Table 24 CAN elements and parameters CAN Element CAN Element Number parameters CAN 710 772 There are only 14 I O 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 Fuel level meter 1 2 Fuel temperature 1 2 GNSS Status Movement Active GSM Operator iButton ID Odometer GSM Signal Deep Sleep Cell ID Area Code PCB Temperature Dallas temperature Sensor 0 2 Fuel Counter and RFID ID cannot use Averaging constant functionality 6 3 1 6 Configurable parameter values and Global parameter values 6 3 1 6 1 Configurable parameters Table 25 Configurable parameter values ed C ee System parameters chapter 6 3 1 1 Sleep Mode 0 disable 1 enable 2 U8 2 Deep Sleep Data Acquisition parameters chapter 8 Min Period in
26. 0 please contact us to your local sales representative Gi TEL TONIKA 16 GPRS COMMANDS It is possible to send commands to FM5300 using GPRS When FM5300 sends records periodically to a server a message could be sent from the server and FM5300 will reply to it FM5300 has to be connected to the server in order to receive commands Command Description GET DATAORDER Get info about records sorting parameter SET DATAORDERX Y Set records sorting parameter X profile Y value 0 1 GET RECTO Get info about records refresh timeout parameter SET RECTO X Set records refresh parameter X records refresh timeout GET VERSION Receive firmware version GET NETWORK Get GSM operator to which device is connected GET IMSI Get IMSI of the device GET OUT Get DOUT values DO REPORT Save a record DO RESET XXX Reset FM5300 or GPS module XXX FM5X or GPS GET ROAMINGX Y Get operator from the list of a certain profile X profile Y operator number in a list Set operator to the list of a certain profile X profile Y operator number in a list Z operator code Get IP and port number from the configuration of a certain profile X profile SET REMIPX Y Z Set IP and port number to the configuration of a certain profile X profile no Y IP or domain Z port number Get APN user login and password from the configuration of a certain profile X profile SET AUPX Y Z W Set APN user login and password to
27. 5300 device Input and output power supply cable with 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 2 2 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 Fastrax IT600 32 channel GPS GLONAS receiver e Protocol NMEA 0183 GGA GGL GSA GSV RMC VTG e Upto 160 dBm sensitivity GLONASS features NVO8C CSM 32 tracking channels Protocol NMEA 0183 GGA GGL GSA GSV RMC VTG GPS GALILEO SBAS L1 1575 42 MHz GLONASS L1 1597 5 1609 5 MHz Up to 160 dBm sensitivity GNSS GGG303 Module features e Navigation Systems GPS GLONASS GALILEO QZSS i Package content depends on Order Code and can be customized by customer needs Protocol NMEA 0183 GGA GGL GSA GSV RMC VTG Up to 162 dBm sensitivity Hardware features Cortex M3 processor 4 MB internal Flash memory 16 MB optional Built in accelerometer Internal backup battery included Interface features Power supply 10 30V USB port 4 digital inputs 4 analog inputs 4 open collector digital outputs 1Wire temperature sensor 1Wire iButton LEDs indicating device status 2xRS232 ports Audio interface CAN messages 2 0 A B Active support Speed up to 1 Mbit s Optional features enable
28. CONFIGURATOR STRUCTURE EE 24 PEON CO PETE PE SEE PT E P A E E ETP E E E O A E E tanta 25 fetteg steier Ole U eirsieicecrirei territi Ecenin aTe E EEEREN OOE ENNE EENE EERE E EENEN ENS 25 Profiles global parameters selection Ared eeeseesseeeeeeereerrrerrrrrrrrrrrrrrrrrrrrrrrrererrrrrrerrrrrrerrrrrens 25 6 3 PARAMETERS CONFIGURATION sssssssssssssnsosesosesssessssssosososososososesessssssosososososesesesesessosososososesesese 26 Global parameters Settings E 26 Settings and configurable parameters menu 28 Doae V E en EE 28 Oare O E e E 28 69 12 L GPRS E 28 6 3 1 2 2 ET E 29 OC E 30 63 Lo e aS areca cats caine ce caters se ttc oo acess ce ek eect ns eas dca nasa T 31 aLL MOUE E 31 LE e SCENAS E 32 QO TELTONIKA eee MUD EE 32 GE E DE ee en 33 6 3 1 3 4 1 Geotencing settinge 33 6 3 1 3 4 2 AutoGeofencing settinge 34 LSS TEEN EE 35 EE a ENN E 36 6 3 1 4 1 FM5300 available 1 0 Mist E 36 BS 12 VO Ee ent TE 38 E E EC 1 O DOD EE 40 EE KK EE 42 6 3 1 5 1 CAN interface parameters cccceseccesssseccecsesscceceeeeececseeeecesseeeeceeseesecessueessesseeeeseetees 42 6 3 1 6 Configurable parameter values and Global parameter values o nnnosssennsssennssserssssrersssee 44 6 3 1 6 1 Configurable DaNANNGT EIS wis cssi ie scsis cecnsdeesnce cashca senses aecacsessnsnusssineesssaveinscesanteutsauedordsboeens 44 GE E CO MER E ele Een 47 6 4 READ RECORDS NEW FUNCTIONALITY AVAILABLE WITH FM5300M VERSION ecs
29. Char Empty Call Trigger 0 2 3 4 0 disabled 2 3 4 DIN2 DIN3 DIN4 Analog Input 1 2 Type 0 1 0 10V 1 30V Analog Input 3 4 Type 0 1 0 10V 1 30V 10 Static Navigation On Off 10 0 1 0 disable 1 enable Records Sorting 10 1 1 1 0 1 0 from newest 1 from oldest Active Data Link Timeout 5 259200 time in seconds 5 Ringtone Parameter 1 10 number corresponding ringtone 1 Accelerometer Filter Start Value 1 9999 time in seconds 1 1 9999 time in seconds 200 1 _ SH 1 Accelerometer Filter Stop Value 5 Continious Odometer 0 1 0 disable 1 enable Odometer Start Value 0 4294967295 l 0 1 2 3 4 0 all available 1 GPS 2 GLONASS GNSS Satellite System 116 l 3 GNSS all available SBAS 4 GPS SBAS Garmin Ping 0 1 0 disable 1 enable Garmin Unicode 0 1 0 disable 1 enable COM1 Baudrate 9600 256000 115200 0 255 5 Silent 13 FM Log 97 LLS 98 LCD 99 RFID 100 RFID M7 101 Garmin 161 COM COM1 Mode 120 l TCP Link 177 COM TCP Link binary 201 203 Reserved 1 4 COM2 Parity 123 0 1 2 0 none 1 even 2 odd 0 255 5 Silent 13 FM Log 14 CAN Sniff 15 NMEA 16 Acceleometer Log 97 LLS 98 LCD 99 RFID 100 RFID M7 101 Garmin 161 COM TCP Link 177 COM TCP Link binary 201 203 COM2 Mode 124 Es zl SR Reserved TA Se COM2 Binary TM
30. D 204 On Valid data Receive Status LED will blink 10 5 1 2 LLS Polynoms Configuration If additional accuracy is required LLS fuel sensors can be configured For polynoms configuration to work both LLS on COM1 and COM2 must be selected As that is done Advanced LLS setup can be clicked Figure 533 x Polynoms for sensor 1 ad oo al ioo 2 a2 Jonn 2 a3 foooo000 4 st 00000000 2 a5 ooon 2 Read Polynoms Write Polynoms Figure 53 Polynoms for sensor 1 a0 Jonn 2 al ooo 2 a2 Jong 2 a3 Ion A ad 0 00000000 a5 0 00000000 Multipacket support With multipacket support FM53 can put two or more smaller input strings in one bigger special packet packet This reduces possibility to miss packets from uart Example Input String HelloSOaHelloSOaHelloSOa Without Multipacket server will see HelloSOa With Multipacket server will see HelloSOaHelloSOaHelloS0a LCD Mode Configuration 1 Globals gt COM1 Settings gt Baudrate 57600 2 Globals gt COM1 Settings gt Mode LCD Or 1 Globals gt COM2 Settings gt Baudrate 57600 2 Globals gt COM2 Settings gt Mode LCD How to use From Terminal need send command WT W your text here From Hercules server Send DO DAT you text here in special packet Notes DO DAT command prints only to COM2 in addition these commands were added DO DAT_1 to print to COM1 DO DAT_2 to
31. ESFF A 18 FE E9 Hi SFFFFFFFF 238463 68 Figure 60 Example When certain message is filtered FM5300 checks which data bytes should be sent to server Document indicates that 5 8 bytes are used in FMS standard Table 46 FMS standard fuel consumption 5 8 bytes 5l7lelslalatziiletzlelstalalzleiztelsiaialztelztelslatalzltt ng Name Total fuel used Total fuel used Total fuel used Total fuel used Values 0 5 L Bit gain 0 5 L Bit gain 0 5 L Bit gain 0 5 L Bit gain Values O L offset O L offset O L offset O L offset Values 5 2 5 66 5 2 5 66 5 2 5 66 5 2 5 66 SAE SPN 250 SPN 250 SPN 250 SPN 250 e SISFEE9618 FF FF FF FF 23 84 63 686 D n Output data mask 24 2 2 WW WS 23 84 63 66 Figure 61 Data bytes are filtered by selecting the checkboxes in Output data mask Note that configurator has them listed starting with MSB After message is filtered it is attached to the data packet and sent to the server Values are returned in HEX 00 03 84 23 HEX 230435 DEC Notice that data resolution is 0 5L bit gain value has to be multiplied by 0 5 therefore vehicle used total of 115217 5 liters of fuel since it 12 4 AutoCAN description AutoCAN function allows user to automatically scan for available messages on CAN bus and configure CAN data sending to server In order to configure AutoCAN connect FM5300 to computer with Port cable Launch FM53xx configurator version 1 1 1 7 or higher Push Connect button then
32. M5300 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 2012 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 Garmin and the Garmin logo are registered trademarks all rights reserved 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
33. MAND LIST RE 69 AL EAT EE 70 T2 2310 e RTE 70 bk WC H e ve 71 TET TE DO E 71 ME GE TINIE IO E 71 1L6 E e Kei 71 WG TGET GPS E 71 hh DC ea GY ere EE 72 ELS e On EE 72 11 10 REENEN 72 11 11 ei KE 72 11 12 E e 72 11 13 GETINP VE 73 11 14 DEET 73 11 15 PR AD EEN 73 11 16 EES 73 11 17 GET PARAM H ugtg gege gg EA EES 74 11 18 SETPARAM HATH EE 74 11 19 SEET 74 11 20 ei ken EE 75 11 21 KiC E EE 75 11 22 BL EE 75 11 23 CRA SF VIG ege 75 11 24 BRINE E 76 12 CON EE 76 EREECHEN 77 e SE e lee Mt e DE 77 o TE 78 124 AUTOCAN DESCRIPTION scrraswretiecestasisarceconwa stuneihanisanvernaieaitioneisiuvattan a a aa piares 81 COOU VO aa E E A E T E E A i 82 CANTON O aa A A E O T OO A A 83 Oline con gura ON ieririr ironian as A NENE NNEC E ENEAN E EEE 84 FO CAIN IOUS E 85 13 REID EN 88 14 GARM LE 89 14 1 SUPPORTED GARMIN FMI PROTOCOLS n sesessessessnsesessssesessesesrsessssrsesresesersrsssesseseeresesersrseseesesene 90 Standard lee 90 Enhanced Protocol cap cesacpe cetacean cierto ae vga E OEE ec ee 91 14 2 SUPPORTED FEATURES ON TAVL CLIENT APPLICATION cceccescesceeccescuscuseuseseeeseeseuseuseuseseeuseeseuses 91 O D geng age 91 14 4 DESTINATION MESSAGE eege 91 14 5 ETA REQUEST MESSAGE wiecccscscsncssccccesdanesicccsnssueadecacsdeneviciasteescbudansuadssteoaasweatersabansaaWeosnantaneues 92 14 6 CONNECTION AND PINOUT ncsssdccessacsdendnmsdewesatasdeanaiedewasmnsadeadinasdainedabantecnsnetanadnsaatenteansainadaaeeseonnnes
34. O 2012 03 02 Changed several screenshot pictures minor description changes Added notice in Electrical characteristics Chapter 2 4 Expanded CAN Chapter 13 description 2 2012 06 05 2 1 Changed some parameter values updated screenshots added mi ae descriptions of RFID Garmin LLS and GPRS commands Chapters 13 14 15 16 removed out dated information 3 2012 07 23 Debug mode added 4 2012 09 28 Added about internal battery life time 15 2012 11 16 2 4 Added 10 5 COM1 and COM2 working modes 12 4 AutoCAN description Table 2 added with sleep average current changed Tables 9 10 12 24 I O elements changed figures with FM Configurators new version screens 6 2012 11 27 CAN ID correction 2012 11 30 FM5300M support added 8 2013 03 27 Revised calculations of LLS polynomial KA N
35. O 1 255 Temp Sensor 0 ID Up To 16 Char FW ht Temp Sensor 1 ID Up To 16 Char FW O C Temp Sensor 2 ID Up To 16 Char FW O O Network Ping Timeout 0 30 time in minutes 6 4 Read Records new functionality available with FM5300M version When the FM5300M is working in offline mode it can save over 45 000 records Since these records are not sent to the server they can be downloaded directly to computer using USB connection When FM5300 connected to configurator appears additional option Read Records Figure 30 FM5XXX Configurator Versi A l Device Help Disconnect COM5 Load Save Load Defaults Save to File Load from File Reset device Get Actual Profile Add Keyword Read Records Profilel Profile2 Profile3 Profile4 Global Parameters IMEI 356307042378157 Source Device SYSTEM Sleep Settings Sleep Mode Deep Sleep A Sleep Timeout 1 IO CAN Figure 30 FM53XX Configurator window with FM53M connected After device is switched on you have to wait 3 minutes for device to startup Only then it is possible to download records If the memory is fully filled reading may take several minutes All records are deleted from device s memory after reading Data is stored in a binary file on PC Records could be uploaded from file to TAVL server and access all the data from TAVL application ATTENTION New functionality is available only with FM53M version Check for correct version on y
36. PRS session Defines maximum input voltage on analog input Possible cases are all inputs 0 30V 0 10V two inputs 0 10V while other two 0 30V maximum 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 should treat like movement is still there Static Navigation Allows enabling or disabling functionality settings 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 GNSS Settings Allows choosing compatibility mode and satellite System COM1 Settings Allows configuring COM1 baud rate parity and flowing control ces e COM Settings Allows configuring COM2 baud rate parity mode end line binary timeout and 3 prefixes 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 Continuous Allows enabling or disabling functionality and start value setting Odometer settings Garmin settings Allows enabling or disabling functionality and Unicode Temperature Settings Settings and configurable parameters
37. QO TELTONIKA FM5300 User Manual V2 7 QO TELTONIKA 1 Table of contents INTRODUC TION E 5 1 1 ATTENTION ee 5 1 2 INSTRUCTIONS OF SAFETY ET 6 1 3 LE AE NOTI EE 6 1 4 PB OUT DOCUMENT EE 6 BASC DESCRIPTION E 7 2 1 PACKAGE eeid IR 7 2 2 PASC el e e 7 2 3 MECHANICAL RRE 8 2 4 TECHNICAL INFORMATION ABOUT INTERNAL BATTERY ccccccseccecccuscessecseuseeussuseeuceeuseuseenseeuseeeuess 9 2 5 ELECIRICALCHARACTERIS EE 10 2 6 Oe NNER E 12 CONNECTION AND Pu OW N EE 12 3 1 SIM CARD INSERT SCHEME x2 sccccstwhousesariiventevenar anieat ectoraaneandeeevieat Snimucdeoviatesdanons fearnasenterarestanieet 12 3 2 INSTALLING FIVID 300 EE See 14 3 3 NAVIGATE LE D EE 15 3 4 ATO LED spac cee ers E ot cots ae daarsa A A eaten aedincoesaiunpaanae 15 3 5 SOCKET 2X10 PINOUT E 16 3 6 WEE 17 SIN AIRE ccacceussectcectvancsensicniccetsancacssuescesessanssnssiestseccvanceeseieac gest vanseaesianevensesniensisencuentsanceaenes 18 4 1 UPDATING FIRMWARE USING USB CARE 18 4 2 UPDATING FIRMWARE VIA GPRS EE 19 OPERATIONAL BASICS scisrrinnieri a 20 5 1 EERSTEN DEE 20 5 2 OPERATIONAL MODE S sssasecrrrertvassicres earsionpipawit ne de siatoartsw caste vtosacea sicdrenasstewntine A ENER 20 5 3 PYG CEE RO IVE TE i marren E 20 5 4 NEE Eege 21 5 5 VOE Eu engel e E 21 5 6 PRORIEE cere ere apes ee cctnc E seca EE E E ene nsescucescapeuasouneoesecmnneeaceonanceaunne 22 5 PER EE 22 ECNO OE EE 22 a o EE 23 Eeer E 23 EE 23 ERNEIEREN 23 6 1 EE 23 6 2
38. RS data sending to server period Module makes attempts to send collected data to server every defined period If it does not have enough records depends on parameter Min Saved Records described above it tries again after defined time interval 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 control the 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 establishing schedule if session was closed by network New GPRS context is opened if 10 minutes are left till time checked in 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 Check All Clear All Ce gt RH om H E oa kW 00 30 GPRS Week Time oo 40 K z g5 KI 6 KJ K K 8 SS R ma i 0210 m 0220 Save Cancel Figure 22 FM53 Features gt Mode Configuration 6 3 1 3 2 Scenarios In Scenarios window four different scena
39. SMS Essential fields in SMS part is Login and Password Figure 19 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 have to be written in international standard without using or OO signs in prefix If no numbers are entered in configuration then commands SMS are allowed to be sent from all GSM numbers SMS data sending Settings SMS data sending Settings si SMS Week Time DEE E EE rns Authorized phone numbers Phone number Figure 19 GSM gt SMSS Settings Configuration 1 SMS data sending Settings enables or disables periodic data and event SMS sending to server Figure 20 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 Check All Clear i C ae gt H 00 00 i 00 10 00 20 Komm T M 01 20 Save Cancel Figure 20 GSM gt SMS Setting
40. Value calculated during previous cycle CONST Averaging constant REALVAL Real value detected on digital input 6 3 1 4 3 I O properties I O properties are additional data sources which are recorded along with usual GPS data O 0 property parameter ID 300 Parameter defines I O property value Possible values are given below Table 12 I O Parameter Values poo 1 2 8 RECHNEN If value is CAN then CAN data is automatically added to this property Table 13 wn Property Parameter Values bee a Recommended Goes with depends on Value value parameters type O 0 priority ID 301 O 0 High level ID 302 O 0 Low level ID 303 O 0 logic operand ID 304 O 0 averaging constant ID 305 O 0 priority ID 301 Parameter defines I O property type of priority O is low 1 high 2 panic 3 empty 4 SW21 5 SW22 6 SW23 7 SW24 Table 14 wn Type of Priority eo Recommended Goes with depends on Value eo value parameters type O 0 High level 1ID 302 7 exl 3 O 0 Low level ID 303 O 0 logic operand ID 304 One cycle equal to 20 ms Gi TEL TONIKA O 0 averaging constant ID 305 O 0 High level ID 302 Parameter defines high value of triggered I O property This parameter is used to set thresholds for I O properties to generate events Table 15 I O won Value RENE Recommended Goes with depends on Value RENE value parameters type
41. X 0 1 There is also a possibility to send the same messages as in SMS command list chapter 11 The device sends a response to every command received Command getstatus Modem Status information getweektime Current device time Day of Week and amount of minutes passed since start of week getops List of currently used and available GSM operators Emergency gsm operator readout from active profile 1 2 3 readops 1 operators 1 20 2 operators 21 40 3 operators 41 50 getnmeainfo getcfgtime getgps loadprofile cpureset resetallprof getver getinfo Device runtime system information setdigout Set digital outputs XXXX Y1 Y2 Y3 0 OFF 1 ON Y4 Y1 timeout for DO Y2 timeout for DO2 Y3 timeout for DO3 Y4 timeout for DO4 getparam Readout parameter value according entered ID ID value setparam Set parameter value according entered ID and Value 1 ID value 2 New Parameter Value flush Initiates all data sending to specified target server HHHH HHH II IMEI 2 4 APN 3 LOGIN 4 PASS 5 IP 6 PORT 7 MODE 0 TCP 1 UDP Gi TEL TONIKA Current GNSS information ATTENTION In order to send these commands they have to be converted to special format How to convert to this format and for additional information on how to send GPRS commands please contact to your local sales representative 17 DEBUG MODE Banlist information sn
42. ails Description Date Time Returns last performed configuration date and time Answer Example Last Configuration was performed on 2010 4 15 5 45 19 11 7 getgps Table 35 getgps Response details GPS Indicates valid 1 or invalid 0 GPS data Count of currently available satellites Latitude Last good Latitude It e Answer Example GPS8 1 Sat 7 Lat 54 71473 Long 25 30304 Alt 147 Speed 0 Dir 77 Date 2007 8 24 Time 13 4 36 11 8 loadprofile Returns acknowledgment of successful profile changing from currently used to preferred Example Profile Nr 1 successfully changed to Profile Nr 3 11 9 cpureset Resets cpu does not send a response back to the sender 11 10 resetallprof Resets all FLASH profiles to default profile Answer Example All Profiles Reseted 11 11 getver Table 36 getver Description Firmware version IMEI Device ID is used to detect which type of configuration to load Modem App Ver Version of modem application Answer Example Code Ver 0 48 17 Device IMEI 353976010139156 Device ID 000001 Modem APP Ver 2007 11 07 11 12 getio Table 37 getio DR Digital Input sat DOH Digital Output state Answer Example DI1 0 DI2 0 DI3 0 DI4 0 Al1 0 Al2 0 Al3 0 Al4 0 DO1 0 DO2 0 DO3 0 DO4 0 11 13 getinfo Table 38 getinfo N BR_ Numberofbroken record PH Lounen rette PO P1 P2 P3 how many times appropriate profile was loaded P4 GPS GPS receiver sta
43. ated o Monitoring monitors data o On change record is generated when parameter value is changed o Hysteresis record is generated when increasing parameter value becomes higher than High value and decreasing becomes less than Low value o Event on exit record is generated when parameter value becomes higher than High value or lower than Low value o Event on entrance record is generated when parameter value becomes between High and Low values o Event on both record is generated when parameter value crosses High or Low values e Low allows to choose low value for Data acquisition e High allows to choose High level for Data acquisition SH Figure 64 CAN data table CAN monitoring To start CAN bus monitoring mark Monitoring check box Table of available CAN messages will appear Fig 60 Data from CAN bus will be updated every 3 seconds In order to see only desired data open Monitoring filters menu Figure 655 MV Cruise control active h Clutch switch JV Engine Percent Load At Current Speed I Engine total fuel used Jh Ade location IV Tire location Figure 65 Monitoring filters Monitoring filters menu allows choosing which data will be shown in configuration menu To enable disable particular data monitoring use checkbox next to data name To enable all data monitoring push Select all button to disable all data monitoring push Select none button Gi TEL TONIKA
44. cccescrcesscese 48 7 ell REG e Ur Le 50 7 1 PROFILE SWITCHING DEPENDENCE ON GSM OPERATOR s s ssssssessssssesesseseserseseosrseseeseseseeseseesrseseese 50 7 2 PROFILE SWITCHING DEPENDENCE ON I O EVENT secccccccessecccccesccscceesecseseeesecseeeussesseeaunscseeeuens 52 A E 53 BOT FE ee 53 e A See Tv ue ET 54 8 1 SP SOFT A e TT Eh e EE 54 MIN PCHIOG EE 55 NEE TOYS ONCE een 55 e E e 55 8 2 PORTA COUSIN ION ME 56 Baiebgte gold 6 E 56 EE 56 9 SEENEN 57 10 FEATURES AND SCENARIOS wasicsscsciccastnncesscsncsevesncsascessacdacssenntevesssesanssdaviesssesndsnneseuaneeseannne 58 10 1 ECO DRIVING SCENARIO E 58 MOUNTING ee 59 CII O OU E AEA A ET A need nce esa aed EE ENA 61 Betrag 62 10 2 QVERSPEEDING SCENARIO E 62 Mounting Requirements and Working Conditions ccccccseeeccsesecccsesececeesecesececsessecseeueesesenees 62 ageet EE 62 10 3 IMMOBILIZER SCENARIO eege 63 COMO OO naea E A AAA E E A O E 63 10 4 AUTHORIZED DRIVING Eeer 63 Eea o LE E D 63 10 5 COM1IANDCOMZ2 WORKING MODES eegene eege Ed eege Eege 63 SENENI OCE ee 63 MLO 2 EE 64 EE 64 LOS Ad LES MGS COM SUN e EE 64 10 5 1 2 LLS Polynoms e iSO AOU EE 64 WOUND GEREE SOD DOME sirasini rE AE EEN 65 LCD Mode CONTIG Ui EE 65 RHD KID Mode Config ralo ere 65 RHD MF7 MOOG COn JUTO UON E 66 Garmin Mode Configurogtion 66 E SC E ege 66 10 5 1 4 Firmware Configuration 67 COM Eeer 67 TEP OPK MOG BINOY eet 68 QO TELTONIKA NMEA TOG MVOC E 68 11 SMS COM
45. ce a 983 E E CAERON SE EE LOUS el E eutaHou cutpurbuaton 0 E BEER sie 8 output Duration EES EC usage scenarios Detection 0 disable 1 enable Start Speed Sia SS a Ignition Off Timeout 65536 60 Trip Continuous Distance Counting 0 not 1 continuous Type 0 standard 1 ID 1 extended ID SS Output mask 771 hexadecimal number CAN ID 772 hexadecimal hexadecimal number number GSM parameters chapter 6 3 1 2 GPRS Content Activation 0 240 1 S8 disable 1 enable APNName 242 Empty 32char empty Imaan APN username 243 Empty de Empty 1 aa APN Password 244 Empty 30char Empty 1 setao Domain 245 Empty de Empty a E Protocol 0 TCP 1 UDP SMS data sending 2 1 S8 geen 10 0 100 0 5 5 10 0 100 Float Float 1 enable Ill SMS login 252 Empty soe Empty Sai SMS Password 253 Empty Soe Empty sais Authorized phone 260 Operator Code 271 99999999 o U2 SMS Data send Binary Binary 27 l 20 byt week time schedule decoding decoding o e 6 3 1 6 2 Global parameters Table 26 Global parameters values Parameter Possible Parameter Value Default Value Profile Change On Event 0 1 0 disable 1 enable Microphone Level O 14 14 highest hi 10 Speaker Level 102 O 100 100 highest 20 Call Number Up To 16
46. cted to FM5300 enables the driver to have a screen in their vehicle for real time navigation messaging and job dispatch capabilities to help them be more efficient FM5300 and Garmin operational scheme is shown in Figure 688 below Gi TEL TONIKA Tavl client or Business Partner Garmin PND Fleet Management Mobile Application Interface Cable FM6300 Network bee Reg i Le Lee Figure 68 FM53 Garmin operational scheme 14 1 Supported Garmin FMI Protocols The following is a list of protocols supported and the corresponding feature benefit FM5300 can fully support Fleet Management Interface FMI versions up to 2 1 Other or higher versions may be supported but Teltonika is not responsible for the changes made by Garmin which may affect the work of FM5300 and Garmin products For more information about Garmin products and FMI versions please go to http www8 garmin com solutions pnd supportedproducts jsp Notice that some Garmin products use different connection cables than others Standard protocols Text Message Protocol e Allows text messages sent to device to be displayed in inbox on unit e Garmin can provide confirmation that message was read e Garmin can also provide a yes no box below the text of the message to enable a simple quick response e Messages can be up to 199 characters in length e Messages can also be generated from device and sent to dispatch office e Messages received will
47. culate 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 0 5 5 Voice Functionality FM5300 has functionality to receive and make voice calls To enable this functionality a telephone handset with electret microphone and RJ 11 connector must be connected to Audio port In Global Parameters Call Settings section Figure 11 there are 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 an incoming call it can play a selected tone from the Ringtone list FM5300 will auto answer the call after nu
48. d 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 criteria 6 3 1 4 2 1 0 configuring I O configuration has 8 main parts Figure 29 o D 0 Enabled Digital Input 1 Enabled C mea aT en ED emt oe E Bytes Avalable 21 H Figure 29 FM53 UO 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 information 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 see chapter 12 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 I O 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 to send it using GPRS If GPRS fails it doesn t send AVL packet using SMS mode if SMS is enabled in SMS settings Panic priority e
49. der 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 64 Figure 26 Geofence border Shape can be rectangular or circle Priority priority of Geofence event low high or panic SW21 SW22 SW23 SW24 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 when record will be generated or no event 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 1 3 4 2 AutoGeofencing settings AutoGeofence the last known position after movement off If your car is being taken away you can be notified The shape and size of the geofence zones are configurable There is a possibility to state whether entering in or out of the geofence triggers an asynchronous message AutoGeofencing Deactivate By Ignition sl Edit iButtons List iButton
50. device Get Actual Profile Add Keyword Profile 1 Profile2 Profie3 Profile4 Global Parameters IMEI 356307040206962 Data Acquisition Modes newt Se ups EC un E KUER np K gt Trip Figure 37 GPS acquisition configuration window System Features gt sMode gt Scenarios Actual configuration parameters are marked in blue Min Period Time based data acquiring Figure 38 records are being acquired every time when defined interval of time passes Entering zero means that data will not be recorded according to time This method is suitable best for basic position update Min time period a O AOON O oOo NOOA NOOS Figure 38 Time based tracking Min Distance Distance based data acquiring Figure 39 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 suitable for non urban territories where moving trajectory is straight Min distance Figure 39 Distance based tracking Min Angle Angle based data acquiring Figure 40 records are being acquired when angle difference between last recorded coordinate and current position is greater than the defined value Entering zero disables data acquisition depending on angle This method is suitable for urban territories Note that record generation by angle is performed if vehicle is moving
51. e 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 points up or down 2 Device can be deployed at any place in the car Figure 46 Correct mounting position of the FM5300 in the vehicle For Eco Driving to work properly device connection pins socket must point towards the vehicles front side Deviations of 2 are allowed But it should be as straight as possible Deviations of maximum 15 are allowed Figure 477 O Te 0 ke Figure 47 MAX deviation from horizontal plane of FM5300 mounting Figure 48 Horizontal position MAX deviation of FM5300 mounting Horizontal position must be as flat as possible parallel with vehicle plain Configuration Parameters used with Eco driving functionality Features Scenarios Digital Output Nol usage scenarios Eco Driving Enable 7 Max Acceleration Force Se mez d Max Braking Force E In s 2 Max Comernng Force 21 mis 2 View advanced M Acceleration Active Output bmo Duration G fk Braking Active Output oi ds SJ Duration G gt LL omemg Active Output oi SJ Duration G fk Figure 49 ECO driving configuration parameters Table 27 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
52. ents Figure 8 FM firmware updating finished QOTELTONIKA 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 an 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 NSE E I Upload Please configure module ei IMEI Server IP address Server port Module number APN chap login chap password Add module Figure 9 Remote Configuration After logging in click on Upload FM4 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 1 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
53. erent modes while using different profiles The easiest way to understand what is a 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 you set FM5300 to call to a 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 322 GLOBAL PARAMETERS Profile 4 Profile 1 Profile 2 Profile 3 SYSTEM SYSTEM SYSTEM SYSTEM GSM FEATURES IO GSM GSM GSM FEATURES FEATURES FEATURES IO IO IO Figure 32 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 the 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 Profile Switching dependence on GSM Operator GSM Operator code profile switching is mostly used in roaming applications when the purpose is to have information from module both fr
54. eyword configuration Switch Security Off 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 the 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 VERSION firmware version of the device HARDWARE VERSION hardware version of the device STATUS status bar SECURITY STATUS status of the configurator security SIM PIN STATUS status of SIM card in the device 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 be 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 a very simple procedure By pressing Load button all 4 profiles and Global parameters are loaded to the configurator g Keyword is of 4 10 symbol length Latin text and or numbers If a keyword is set every time user reconnects FM5300 to USB or COM1 port he will be asked to enter a valid keyword when connecting FM5300 to configurator User is given 5
55. f the truck CAN Baudrate Autobaud Vehicle User Protoc Figure 55 CAN baud rate configuration window Note that If FM5300 is set to Autobaud mode it will always check for CAN network even if device isn t connected to any of it CAN message ID type Message ID type Figure 56 CAN message ID types6 two types according to SAEJ1939 standard Standard ID value O to Ox7FFh and Extended ID value O to Ox1FFFFFFFh CAN Type ID Standard ID T Standard ID lut data mask Extended ID Figure 56 CAN message ID types Message ID value is entered in hex format This parameter is used to configure hardware message filter Figure 577 All messages contain 8 bytes of data to select particular data bytes Output Data Mask is used it s done by ticking required bytes only selected bytes are sent to server Extended ID g MB TF PF Mw mM M M EE Uu FFFE ESFFI Figure 57 CAN message filter configuration 12 3 Example A sample CAN message has the following structure X18FEE9018FFFFFFFF23840300 where essential parts are FEES identifier and FFFFFFFF23840300 data bytes CAN messages are configured like any other I O parameters They consist of 4 identifier bytes and 8 data bytes Below you will find a sample configuration for fuel consumption parameter ID type is always 29 bits Output data mask defines which data bytes are sent to the server sometimes
56. get left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone 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 1 trip start O trip stop 1 iButton connected 1 authorized iButton connected 1 harsh acceleration 2 harsh braking 3 harsh cornering Depending on eco driving type if harsh acceleration braking and cornering g 10 m s At over speeding start km h at over speeding end km h ECO driving type ECO driving value Over Speeding 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 metho
57. ging More information about Profile switching functionalities can be found in chapters 7 1 Switching by GSM Operator and 7 2 Switching by I O Element 5 7 Features Using available features can greatly increase FM5300 usability options Scenarios Four scenarios are available on FM53 device a Digital Output No 1 is used by scenarios Eco Driving and 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 More about Eco Driving read in chapter 10 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 Note It is possible to use both Eco driving and Over Speeding scenarios at the same time while Authorized Driving and Immobilizer are not one of these has to be chosen Trip Trip customizable featu
58. hird and fourth identifies parameter ID as described in Parameters Configuration chapter In value field a new parameter value is entered Example setparam 1245 127 0 0 1 will change configured IP address in profile1 with new value 11 19 flush Initiates all data sending by GPRS to specified target server Comma separated parameters go as numbered 1 IMEI 2 4 APN 3 4 GPRS LOGIN 4 GPRS PASSWORD 5 IP 6 PORT 7 MODE 0 TCP 1 UDP Parameters are separated by comma no spaces needed In case you do not need to enter parameter Login Pass do not put space simply put comma and write next parameter Example opa opa flush 353976012555151 banga 212 47 99 62 12050 0 Table 41 flush Response details Accepted FLASH Minimum Records Number of minimum saved records to send to Send GPRS Enabled Time Sync Indicates time synchronization on the device 0 not synchronized 1 synchronized Answer Example FLUSH SMS Accepted 11 records found on FLASH Minimum Records to Send 1 GPRS Enabled 1 Time Sync 1 11 20 getgnss Table 42 getgnss Response details GPS fix SAT GL Total glonass sattelites Total gps sattelites Answer Example FIX 1 SAT GL 5 GP 10 11 21 sn xX Returns state of static navigation and previous state Static Nav is Disabled Was X or Static Nav is Enabled Was X 1 enabled O disabled If sent X is not O or 1 then re
59. ile Load From File Reset device Get Actual Profile Add keyword Profile 1 Profile2 Profle3 Profile4 Global Parameters IMEI 356307040206962 IL aystem Jo Enabled Digital Input 1 sl Enabled sl Features Bytes Available lat T Figure 35 Switch to profile on event 1 Example 2 Configuration of Profile2 to switch to Profile1 on DIN1 value change from 1 to 0 File Device Help Disconnect comin Load Save Load Defaults Save to File Load from File Reset device Get Actual Profile Add Keyword Profile 1 Profile 2 Profile3 Profile4 Global Parameters IMEI 356307040206962 LO SS 0 Enabled Digital Input 1 Enabled GSM Features Bytes Available E i Figure 36 Switch to profile on event 2 8 DATA ACQUISITION Data can be acquired using GPS or I O elements GPS data is for basic vehicle tracking data acquisition by I O 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 377 Device checks angle distance and time differences with last saved record If differences are greater than configured a record is generated Checking sequence first angle is checked then distance and last time differences SG FM5XXX Configurator ersion 1 1 1 7 File Device Help Disconnect COMi0 Load Save Load Defaults Save to File Load From File Reset
60. ill not be written to device flash memory FM5300 Configurator is divided into 5 main areas Figure 13 e Buttons area Information area Profiles or global parameters selection area Settings menu Configurable parameters and values menu FM5XXX Configurator Version 1 1 1 7 218 x File Device Help Profile 1 Profile2 Profile 3 Profile 4 Global Parameters 3 2 IMEI 356307040206962 Source File Version 01 01 04 Hardware Yersion Int Bat NYS MY F SYSTEM Sleep Settings Sleep Mode Disable DI Sleep Timeout 2 Figure 13 FM5300 Configurator window structure Security status Unsecured SimPin status oo sim Buttons area Table 7 Configurator buttons area description Main Buttons Description Connect connects the device Load Save reads configuration parameters from FM5300 Flash memory saves configuration parameters to FM5300 Flash memory Load Defaults loads default FM5300 settings that later can be modified Save to File allows user to save currently entered settings to XML file for later usage Load from File allows user to load configuration saved in XML extension file Reset device reboots FM5300 and displays processor firmware version 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 K
61. irefox Continous Odometer Settings Continous Odometer Start Value Version 01 01 04 Disable 0 Hardware Version Int Bat NYS MM M Garmin Settings Garmin Ping Filter Garmin Unicode Disable z Enable bes Figure 16 FM5300 Global parameters Security status Unsecured SimPin status no sim Parameter description Allows selecting profile switching method When Profile change on Profile change on event Call Settings Record Settings Analog input settings Accelerometer settings event is disabled FM5300 switches profiles depending on GSM operator code method Otherwise it switches profiles depending on I O events see details in chapter Error Reference source not found Voice settings Allows to setup microphone sensitivity and speaker loudness level Allows entering one number to which FM5300 will be able to call to 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 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 G
62. ital Output OFF Poe fe 120 Drain current Digital Output ON Recommended 300 ak Operating Conditions Static Drain Source resistance Digital Output ON a ee am mOhm LA LI Gi TEL TONIKA Typ CHARACTERISTIC DESCRIPTION N LI Supply Input Voltage Recommended Operating Conditions voltage Ech V V Input Voltage threshold DIN1 Input Voltage threshold DIN2 DIN3 DIN4 2 5 ANALOG INPUTS Input Voltage Recommended Operating Conditions Rangel LA O Input resistance Range1 120 Input Voltage Recommended Operating Conditions Range2 LA O Input resistance Range2 147 OUTPUT SUPPLY VOLTAGE 1 WIRE Lu LA Supply Voltage SE Oo O 5 3 Output inner resistance Ww Output current Usut gt 3 0V 3 130 3 als Short circuit current Usut 0 CAN INTERFACE O g 3 Internal terminal resistors CAN bus kOhm LA LO Differential input resistance 52 Recessive output voltage Differential receiver threshold Voltage 0 5 30 Gu CH OPN w zl WwW O Common mode input voltage When connecting a COM port to an active external device keep in mind that the first power supply must be connected to FM5300 and then the external device should be powered Connecting external devices when FM5300 is powered off is not recommended 1 wire Supply voltage PIN is dedicated for 1 wire devices ONLY do not use it for a
63. ket please contact to your local sales representative TCP Link Mode Binary This mode is the same as above but binary message will be accepted to from COM port This mode also have some advanced filtering capabilities 1 Globals gt COM2 Settings gt Baudrate any of available baudrates 2 Globals gt COM2 Settings gt Mode TCP Link Mode 3 Globals gt COM2 Settings gt Parity any setting 4 Globals gt COM2 Settings gt Timeout any setting x10 msec How much time to wait before detecting end of packet 5 Globals gt COM2 Settings gt Parity any setting 6 Globals gt COM2 Settings gt Prifix1 any setting incoming 1 byte must match to Prefix1 to be accepted 7 Globals gt COM2 Settings gt Prifix2 any setting incoming 2 byte must match to Prefix2 to be accepted 8 Globals gt COM2 Settings gt Prifix3 any setting incoming 3 byte must match to Prefix3 to be accepted 0 and 255 don t care NMEA Log Mode In this mode NMEA logs are sent via COM1 and COM2 ports 11 SMS COMMAND LIST SMS commands are used to identify FM5300 current state possible configuration errors perform reset set parameters switch on off outputs etc SMS commands should be sent along with module login and password and sender number must be entered in the authorized number list if at least one other number is entered Please see SMS settings in chapter 6 3 2 2 2 for more details SMS structure is as follows lt login gt
64. l Event Generated Record Saved Figure 44 Monitoring Time t 5 Hysterisis Speed Km h 100 High Level 20 Low Level Event Generated Record Saved Time t Figure 45 Event on Hysteresis Event on Zone Entrance record is generated when actual source value input is between High and Low level ranges which are set in configuration Event on Zone Exit record is generated when actual source value input increases and becomes higher than High level and Low level values Event on Both record is generated when actual source value input increases decreases and becomes higher lower than high and low level declared values Monitoring no event at all I O values are recorded only when other trigger have worked GPS acquisition or other I O trigger Hysteresis record is generated when 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 9 DEEP SLEEP MODE While in deep sleep mode FM5300 sets GPS 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 sent 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
65. l CAN ID Uu FFFEESFF Figure 59 CAN parameter configuration example Note Averaging constant cannot be used with CAN data because this information comes in digital format So in order to prevent data loss set Averaging constant parameter to 1 Most parameters have certain resolution FEE9 parameter has 0 5L bit gain so value that is sent to server has to be multiplied by 0 5 Data parsing is preceded by selecting correct message from all available on CAN bus FMS standard interface description indicates that fuel consumption is parameter with ID FEE9 Table 45 FMS standard fuel consumption FEE PN Hex 58 PN 000 Re Rate DataByte1 Data Byte2 DataByte3 DataByte4 Data Byte5 1 Data Byte6 _ DataByte7 __ Data Byte8 Byte No Total fuel used Total fuel used Total fuel used Total fuel used SE Not used for Not used Not used Not used 0 5 L Bit gain 0 5 L Bit gain 0 5 L Bit gain 0 5 L Bit gain Values FMS for FMS for FMS for FMS O L offset O L offset O L offset OL offset hues Standard Standard Standard Standard 5 2 5 66 5 2 5 66 5 2 5 66 5 2 5 66 SPN 250 SPN 250 SPN 250 SPN 250 A ref The example indicates how fuel consumption message is selected and how configuration impacts this selection Figure 60 SF OFFFFFFFFFFFFFF SFF OGFFFFFFFFFFFF 0OFFFFCOOOOOONHA SFFFFFFFF 23840368 8FFFFFF7811FFFFFF 8FFFFFFFFFFFFFFFF Mlessage list Message data Message Identifiers CAN ID Os FFFE
66. l format 204 Fuel temperature 2 Table 10 EVENTUAL I O elements list description Eventual IO elements generated and sent record to server only if appropriate conditions are met Property ID in AVL Property Name Bytes Description ID Specific data ID Specific data ID Specific data ID Specific data Varying ID Specific data 155 Event 0 target left zone 1 target entered zone 156 Event 0 target left zone 1 target entered zone 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 sent record to server only if appropriate conditions are met Property ID in AVL packet 157 158 159 160 161 162 163 164 165 166 67 68 169 70 171 172 173 74 175 250 1 252 LA LA LA N UI 253 254 255 Property Name Bytes Description Geofence zone 03 Geofence zone 04 Geofence zone 05 Geofence zone 06 Geofence zone 07 Geofence zone 08 Geofence zone 09 Geofence zone 10 Geofence zone 11 Geofence zone 12 Geofence zone 13 Geofence zone 14 Geofence zone 15 Geofence zone 16 Geofence zone 17 Geofence zone 18 Geofence zone 19 eofence zone 20 uto Geofence rip mmobilizer Authorized driving Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 target left zone 1 target entered zone Event 0 tar
67. ll necessary changes Figure 16 FM5XXX Configurator Version 1 1 1 7 File Device Help Disconnect COM10 Load Save Load Defaults Save to File Profile 1 Profile2 Profile 3 Profile4 Global Parameters Load From File Reset device Get Actual Profile Add Keyword IMEI 356307040206962 Source Device Profile change on event Static Navigation Settings Enable Disable Enable ee Enable Disable Enable Se Voice Settings GNSS Settings Microphone level 35 Sattelite System GNSS all available Speaker level 50 COMI Settings m Call Settings Baudrate 115200 DI Callinumber a Mode Silent Mode bas Call trigger Off COM2 Settings Ringtone Ringtone 3 PAETAE 19200 Auto answer 3 Advanced LLS Setup m Analog Input Settings Parity D ana 5 Analog input 1 2 value range 30 ba Mode Silent Mode Analog input 3 4 value range 30 Binary timeout 10 H Prefix 1 10 m Record Settings d Prefix 2 27 Sorting From newest e GE Prefix 3 Active datalink timeout 5 S Network Ping timeout 5 mm Temperature Settings m Accelerometer Settings ID 2 Dallas_2 DI Movement Filter Start 1 s ID fi Dallas_1 DI Movement Filter Stop ES a s ID fo Dallas_0 DI Profile successfully read From flash Table 8 Global parameters description Folder Display Mozilla F
68. mber 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 loud will be the speaker For detailed Voice Functionality configuration parameters descriptions refer to chapter 5 5 Voice Settings Microphone level Speaker level Call Settings Call number 1234567890 Call trigger Off Ringtone Ringtone3 sl Auto answer 3 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 a 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 the 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 GSM Operator mostly used for roaming applications or by Profile switching depending on I O Event on I O value chan
69. me logic All I O element parameters are listed below Table 19 I O Elements parameters parameters 6 3 1 5 CAN 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 host computer see chapter 12 6 3 1 5 1 CAN interface parameters Gi TEL TONIKA CAN Baud Rate ID 760 Parameter defines CAN bus baud rate For Auto Baud rate ID 760 value is 0 Available baud rates are 50 100 125 250 500 and 1000 kbps Table 20 CAN Baud Rate Maximum Recommended Goes with depends on Value type value value parameters CAN O CAN Type ID ID 770 1000 125 CAN 0 Output data mask ID 771 CAN O CAN ID ID 772 CAN O CAN Type ID ID 770 Parameter defines CAN element ID length CAN element ID could be 11 or 29 bits length For 11 bits ID parameter value is O for 29 bits ID 1 Table 21 CAN Type ID Maximum Recommended Goes with depends on Value type value value parameters 1 1 CAN 0 Output data mask ID 771 CAN O CAN ID ID 772 CAN 0 Output data mask ID 771 Parameter defines CAN data mask This parameter is 8 bit length and indicates which data bytes of CAN message are sent for calculation and which are ignored Bit value 1 means that CAN data byte will be preceded ant sent to server Example 00110011 is 51 integer Table 22 Output data mask CAN 0 CAN Type ID ID 77
70. n It is a 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 can be found in chapter 9 5 3 Accelerometer FM5300 has a built in 3 axis accelerometer which allows the device to indicate if vehicle is moving or not as well as measure acceleration Accelerometer sensitivity can be configured it has 2 configurable global parameters start and stop timeouts that define time intervals in seconds To indicate that a vehicle is moving FM5300 constantly in frequency of 10 Hz checks for g force change on X Y and Z axes If measured g force keeps exceeding the set limit it is not configurable for defined time interval in Movement Filter Start field Figure 10 then the vehicle is considered as moving Same settings for idle indication apply if g force change is less than the set limit for time interval defined in Movement Filter Stop field then the 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 Filter Start Movement Filter Stop Figure 10 Accelerometer settings 5 4 Virtual Odometer Virtual odometer is used to cal
71. n have influence on GPRS sessions IF GPRS sessions are attaching detaching every 15 minutes it means configuration of FM5300 is performed incorrectly Gi TEL TONIKA Current operators 24701 24702 24703 24705 Profile s operator search procedure Operator code found in profile 2 Profile Switcher Home network Roaming network Default profile SMS Operator codes Operator codes Operator codes Every 15 min operator scan procedure Figure 33 GSM Operator code profile switching 7 2 Profile switching dependence on I O event 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 hysteresis predefined by High and Low level thresholds SW21 SW22 SW23 SW24 stands for Switch to profile No X After an event happens FM5300 switches to a 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 entrance 3 H 1 L 1 Event on exit j 0 1 H 0 L 0 Event on exit 4 H 0 L 0 Event on entrance Figure 34 Digital input event criteria Example 1 Configuration of Profile1 to switch to Profile2 on DIN1 value change from 0 to 1 Fie Device Help Disconnect COMO Load Save Load Defaults Save to F
72. nario 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 Configuration Immobilizer Enable Y Figure 51 Immobilizer configuration parameters Immobilizer Enable Disable Immobilizer Scenario 10 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 Configuration Digital Dutput No 2 usage scenarios Authorized Driving Enable sl Edit iButtons List iButtons Figure 52 Authorized driving configuration parameters Authorized Driving Enable Disable Authrized Driving Edit iButtons List Enter authorized iButtons 10 5 COM1 and COM2 Working Modes Silent Mode FM5300 doesn t do any activity in silent mode Logs aren t saved and any data isn t sent FM Log Mode This is default mode of the FM5300 It is suitable for debugging LLS Mode 10 5 1 1 LLS Mode Configuration 1 Globals gt COM1 Settings gt Baudrate 19200 2 Globals gt COM1 Settings gt Mode LLS 3 Globals gt COM2 Settings gt Baudrate 19200 4 Globals gt COM2 Settings gt Mode LLS Note On COM1 Level will be with ID 201 Temperature will be with ID 202 On COM2 Level will be with ID 203 Temperature will be with I
73. nctionality generates events on three cases If vehicles e Acceleration exceeds defined parameter value e Deceleration braking exceeds defined value e Cornering force exceeds defined value Program continously monitors and process data from accelerometer than decides whether harsh event is detected or not If any of three cases are satisfied event is generated Record is saved and sent to server FM5300 must be configured properly Event value is multiplied by 10 before sending saving record to get more precision when displaying data Digital output No 1 is activated for a period of time to warn driver Output on time should can be configured separately for each case 10 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 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 doesn t have any influence for correct scenario operation Configuration OverSpeeding Enable v Max Allowed Speed 90 kmh Figure 50 Overspeeding configuration parameters Overspeeding Enable Disable Overspeeding Max Allowed Speed Set speed limit to reach without triggering Overspeeding event 10 3 Immobilizer Sce
74. ndicate module connection to server at the moment 0 Not connected 1 connected GPRS Indicate if GPRS is available at the moment Voice Call status 0 ready 1 unavailable 2 unknown 3 ringing 4 call in progress 5 asleep Op LConmected to GSM Operator Numerical id of operator Answer Example Data Link O GPRS 1 Phone O SIM O OP 24602 Signal 5 NewSMS O Roaming 0 SMSFull 0 LAC O Cell ID O 11 2 getweektime Table 30 getweektime Indicates system clock synchronization status O System is not synchronized 1 System synchronized Day Of Week indicates current day of week starting from 0 Monday 1 Tuesday etc Indicates current GMT time Indicates time in minutes starting from Monday 00 00 GMT Answer Example Clock Sync 1 DOW 4 Time 12 58 Weektime 6538 11 3 getops Table 31 getops Response details Description LIST Returns list of current available allowed operators Answer Example GSM OP LIST 0 24602 11 4 readops Table 32 readops Response details Description LIST Returns acknowledgment of operators in active profile configuration 11 5 getnmeainfo Table 33 getnmeainfo Response details BChSum Nmea packets with bad checksum counter HAct Actual HDOP Nmea packets with bad timestamp counter BLat Nmea packets with bad latitude counter BT BLon BSpd BAng GJC Ric 11 6 getcfgtime Table 34 getcfgtime Response det
75. next window 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 and angle based Method s details are described in Data Acquisition chapter 8 All data is stored in flash memory and later can be sent via GPRS or SMS channels GPRS mode is the most preferred data sending mode SMS mode is mostly used in areas without GPRS coverage or when GPRS usage is too expensive GPRS and SMS settings are described in chapters 6 3 1 2 1 and 6 3 1 2 2 FM5300 communicates with server using special data protocol Data protocol is described in FMXXXX Protocols document 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 is designed to dramatically reduce power consumptio
76. no additional calculations have to be made on the server No of LLS sensors Where polynomials have to be entered On the server FM5300 sends values from LLS in rom On the server FM5300 sends values from LLS in kvants OR in FM5300 configuration the device sends the sum of both LLS sensors converted to liters 2 COM1 and COM2 Here is an example of how to calibrate LLS sensor and obtain polynomials LLS sensor must be put in the intended fuel tank and then configured using polynomial calculation The first step is to firmly place the LLS sensor in the fuel tank and calibrate it The tank should be empty or at least almost empty for the calibration to be successful or at least as accurate as possible IMPORTANT Before calibration and calculation of polynomials make sure that FM5300 polynomial configuration is default That is all polynomials are 0 except for a1 which is 1 Otherwise the calculations will be incorrect To acquire the correct polynomials a known amount of petrol has to be poured into the fuel tank and the value which is read should be written down Then another amount should be poured and the next value written down and so on This should be done till the tank is full Then the calculation of polynomials has to be made Here is an example of how to do this with the values already written down for example a tank of 150 liters and using an editor program like Microsoft Excel The values of the LLS senso
77. not all data bytes are necessary CAN ID this is 4 byte identifier Messages use 4 bytes but the first and last bytes may differ in different vehicle models while the middle four bytes are the same for all vehicles The first and last bytes may have any value Because of this reason it is recommended to write FF in the first byte and the same in the last byte Gi TEL TONIKA This information is provided only as an example and Teltonika takes no responsibility for information accuracy or damage that may be done to the vehicle or FM5300 module while integrating it Example All Mercedes Benz Actros 2 models with Vehicle Identification Number VIN starting with WDB93 have a possibility to connect FM5300 module to CAN bus This can be done by connecting to special PSM module which may or may not be included in the truck or ground module of the vehicle For CAN signal to be available parameter 520 must be enabled in kommunikationsschnittstelle in the vehicle with Mercedes Stardiagnose CAN wires can be found on X5 connector located in the fuse box Figure 588 Pin 5 CAN Low signal yellow wire Pin 2 CAN High signal blue wire A7 a OPE popp EEEE F Wi Alee Let le Figure 58 X5 plug on Mercedes Benz In the example FM5300 will filter all CAN messages with identifier FFFEE9FF fuel consumption Figure 59 Auto CAN Manual CAN Property Input CANO input MM ba CAN Type ID Extended IN s
78. ny other purpose 2 6 Absolute Maximum Ratings Table 3 Absolute maximum ratings CHARACTERISTIC DESCRIPTION D I ww Supply Voltage Absolute Maximum Ratings Digital output clamp threshold voltage Absolute 3 Maximum Ratings larain 2MA 6 Digital Input Voltage Absolute Maximum Ratings 2 2 8 3 Analog Input Voltage Absolute Maximum Ratings 3 5 Voltage on Data Input Output 1 Wire Absolute Maximum Ratings Voltage on CANH CANL Absolute Maximum 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 Gi TEL TONIKA Take off FM5300 case and insert SIM card Assemble device as shown and put screws as shown into the holes Screw all 4 screws Device is ready 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 avil 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
79. of Arrival request message is used when user wants to know expected arrival time to currently active destination and distance in meters from current object location to currently active destination 14 6 Connection and pinout Description D A cs a Ee DA ce Figure 69 RJ45 Pinouts In order to connect Garmin PND to FM5300 Garmin mode has to be set in Global parameter settings figure 65 Simply choose Garmin mode in either COM1 or COM2 settings mode but you cannot activate Garmin mode in both ports at the same time FM5300 is able to filter out some of Garmin FMI packets that are not used in some applications including Tavl system and generates additional data transfer at the same time increasing bills of GSM services In order to enable Garmin FMI Ping Packet Filtering set this feature from Global parameters at the bottom enable Garmin Ping setting see Figure 700 Gi TEL TONIKA COM1 Settings Baudrate 9600 Mode Garmin Mode a COM2 Settings Baudrate D p III i RFID MF Mode View advanced I FID MF Mode Garmin Mode Temperature Settings Number COM TCP Link Mode COM TCP Link Mode Binary 4 Reserved Mode Reserved2 Mode Continous Odometer Settings Continous Odometer Disable Y Start Value 0 Ez Garmin Settings Garmin Ping Enable s Garmin Unicode Enable sl Figure 70 Configuration of Garmin in Global parameter se
80. oltage mV 0 30 V oltage mV oltage mA O Degrees C 0 off 1 no antenna only when using NAVYS 2 no fix 3 got fix 4 sleep 5 over current 10 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 1 2 3 10 11 19 21 22 A lt LA Permanent I O elements are always sent with every record to server if enabled Property ID in AVL Property Name Bytes Description H Fuel Counter Difference of generated impulses on two signal lines iButton ID iButton ID number Digital Output Status 1 Logic 0 1 Digital Output Status 2 Digital Output Status 3 Digital Output Status 4 Deep Sleep 205 2 A _ 8 a MES ae a 2 WE A WE WER Location Area code LAC it depends on GSM operator 206 Area Code It provides unique number which assigned to a set of a pe 2 i Segre Probability 10 0 500 uUi O geifen OD el be h O1NIN 3I LI Silke p OIO o base GSM stations Max value 65536 0 not moving 1 moving Currently used GSM Operator code or liters degrees Celsius 1 1 1 1 1 1 240 Movement Current Operator Code 201 Fuel level meter 1 202 Fuel temperature 1 203 Fuel level meter 2 or liters degrees Celsius Read RFID value depending on RFID mode values can 207 RFID ID be for RFID mode in hexadecimal format RFID M7 mode in decima
81. om Home and Roaming operator network for a 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 a certain time interval Profile 3 can either contain operator codes rarely used or have an empty list Profile 4 is not used profile 4 can only be used when FM5300 encounters a panic priority event see 7 2 chapter In the example Figure 33 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 operators list This code is entered there so FM5300 switches to profile 2 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 any list In such a case FM5300 will switch to profile 3 Note that before switching to profile 3 the device closes the GPRS session Operator search is performed every 15 minutes If no operators are entered in any profile it ca
82. ometer must be enabled IO elements Ignition OFF Timeout je af SBC Trip Start te generated when 1 Ignition i detected 2 Start Speed is more than configured Trip Stop i generated when 1 Ignition is OFF 2 Ignition OF Timeout has ended Figure 24 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 I O Odometer value field When Trip is over and next Trip begins Odometer value is not reset to zero it is counted continuously again If 1 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 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 the whole Trip period 6 3 1 3 4 Geofencing 6 3 1 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 Geofencing ene a e ESCH 0 000000 0 o0000d KT Figure 25 FM53 Features gt Geofencing Configuration 1 Configuration of the parameters is available in Features gt Geofencing Figure 25 e Frame border frame border is an additional bor
83. or is off 3 6 USB When FM5300 is connected to a PC it creates a STM Virtual COM Port which can be used as a system port to flash firmware and configure the device Le Device Manager e mf882 mA gt Multifunction adapters Fe Network adapters El Ports COM amp LPT na y Communications Port COM1 NW PCLEPP ECP Parallel Port LPT3 NM PC Serial Port COM7 NM PCI Serial Port COM Drim tar Der i D d System devices GEI 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 All devices are updateable Sending Data Entered R523 boot mode OK Data transmission started OK beginning data transfer Data transmission ended OK closing data transfer Transfer finished device finmware will be loaded in few mom
84. our FM53M sticker as it is shown below Figure 31 In the lower right corner has to be M symbol indicating FM53M version Gi TEL TONIKA ES GNSS S status Navigate AUDIO asy PORT ESMI QUTELTONIKA FM5300 Power supply 12 24 V DC 250 mA Avg C 4 Internal battery version i Made in Lithuania i 2 _ bh d A wa RI d he p 3 e i R f L af ea 5 F SR SE ek K Ss D I ees DR D PORT ra 2x10 socket fom anes cr V e gl 2x10 socket Figure 31 FM53M sticker TAVL client application lets user to use the following features e Import data file saved from the device to the TAVL e Preview track of the imported data e Generate reports based on imported data More details on how to use TAVL application please refer to TAVL3 application user manual v1 4 documentation or its latest versions FM53M version can be still used as a standard FM53 It can be configured to acquire and send data to server It will be possible to store up to 47 615 data records if GSM is not available at the moment It will send data later when GPRS is available again Note that FM53M can have memory full of records In such a case it will start deleting oldest records in order to save new ones Sending all the data records to server may take some time 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 diff
85. p JI Set Intercept 0 0 i Display R squared value on chart Figure 76 Selecting polynomial order A new line appears alongside the created one as well as a formula for that new line Figure New Microsoft Excel Worksheet 2 xlsx Microsoft Excel Chart Tools File Home Insert Page Layout Formulas Data Review View Design Layout Format aul at Switch Be ee SH E Chart Type Template Row Column Data Type Data Chart Layouts Chart Styles De fN E F D H l K L M 8 a 160 Deg 120 a 100 if a0 a Seriesl oe Poly Seriesl 60 We o L y 0 0046x7 0 091x4 0 3275x3 2 9353x 4 d 34 39x 30 968 6 8 10 12 20 1023 11 23 SC CO Pd t Figure 77 Calculated polynomial line and calculation formula Final view of the formula should be y 0 0046x 0 091x 0 3225x 2 9353x 34 39x 30 968 Where a0 30 968 al 34 39 a2 2 9353 a3 0 3225 a4 0 091 a5 0 0046 Here the polynomials a0 a5 have to be written in the polynomial calculation on the server If it is required for FM5300 to send the data in liters these polynomials can be written in the configuration of the device To do this go to global settings and choose both ports to work in LLS mode Figure 78 Also repeat the steps for the second LLS sensor if it is needed Note that depending on fuel tank shape polynomial line can be with negative values REMEMBER Polynomials can only be written in the configu
86. print to COM2 Link between FM and server has to be established for this functionality to work On Valid data Receive Status LED will blink RFID HID Mode Configuration 1 Globals gt COM1 Settings gt Baudrate 57600 2 Globals gt COM1 Settings gt Mode RFID Or 1 Globals gt COM2 Settings gt Baudrate 57600 2 Globals gt COM2 Settings gt Mode RFID 3 Globals gt COM2 Settings gt Parity Even For additional information of special packet please contact to your local sales representative RFID MF7 Mode Configuration 1 Globals gt COM1 Settings gt Baudrate 9600 2 Globals gt COM1 Settings gt Mode RFID MF7 Or 1 Globals gt COM2 Settings gt Baudrate 9600 2 Globals gt COM2 Settings gt Mode RFID MF7 3 Globals gt COM2 Settings gt Parity None Garmin Mode Configuration 10 5 1 3 Settings 1 Globals gt COM1 Settings gt Baudrate 9600 2 Globals gt COM1 Settings gt Mode Garmin Or 1 Globals gt COM2 Settings gt Baudrate 9600 2 Globals gt COM2 Settings gt Mode Garmin 3 Globals gt COM2 Settings gt Parity None Ping Filter Enable Parameter O DISABLED Ping packet will not blocked 1 ENABLED Ping packet will be blocked Unicode Support Packet Enable Parameter O DISABLED Unicode Packet will be send to server 1 ENABLED Unicode Support Packet will not be send to server Note If the Garmin is selected on com and com2 the com1 will be prefe
87. put 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 The device 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 e configurable To save GPRS traffic Eco Driving event will be generated included into records only when FM5300 measured values are higher than those set in configuration without additional I O settings To prevent generating false events Eco Driving functions only when special conditions are fulfilled mentioned below PLEASE NOTE that functionality generally is dependent on accelerometer Device must be on plain horizontal surface to calibrate itself correctly It calibrates once it is powered up Gi TEL TONIKA Mounting Requirements PLEASE PAY ATTENTION that ECO driving functionality will operate correctly only if device is mounted into the vehicle in a 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 46 mounting recommendations are displayed Please note that besid
88. r dealer for more details Vehicle brands supported e Mercedes Benz e Volvo e MAN e DAF e Iveco e Scania e Renault Available parameters e Total Fuel e Total Distance e Status of brake pedal e Engine Torque e Actual fuel Accelerator pedal position Status engine brake Speed RPM Engine hours Vehicle Weight Fuel level Tachograph data 12 1 General description CAN works if no USB cable is inserted and isn t in deep sleep mode Uses six different speeds 50 kbps 100 kbps 125 kbps 250 kbps 500 kbps Auto Baud rate detection Filtering messages Stid Extld according to configuration Using mask filters required bytes Different CAN configurations 12 2 Configuration Manual CAN data can be configured using Manual CAN in CAN tab figure below Figure 54 CAN configuration window LAN tr STAN Offline Configuration CAN Eaudrate Autobaud Monitoring T Vehicle User Protocol iN one sl Auto CAN Manual CAN Property Input CANT input CAN input Disabled CANS input CANA input CAN Type ID Extended ID Z CAM ID Dy Joocococg Figure 54 CAN configuration window CAN baud rate configuration speed depends on operating CAN network speed if that speed is unknown Autobaud mode is recommended Figure 55 CAN baud rate configuration window Availability of parameter depends on vehicle s model and configuration of FMS interface o
89. r when pouring a known amount of liters into an empty fuel tank are Value kvants N o a 220 w a 550 em ec Note for more accurate calibration and configuration the poured liters should not be a high amount for example three times by 50 liters Pour a known small amount in order to get the most accurate calculations Then enter these values in Excel and calculate another value N according to the formula N i 100 FM5300 converts the read data using this formula so we need to have the converted values also Next enter the new values in Excel and create a scatter chart like in Figure 74 New Microsoft Excel Worksheet 2 xlsx Microsoft Excel O Gw m Si Other Line Column WWin Loss Slicer Hy Charts 7 File Home Insert Page Layout Formulas Data Review View MBER e A bk ep Sr de PivotTable Table Picture Clip Shapes SmartArt Screenshot Column Line Pie Bar Area Art e T kal bs ail T aa GE Tables Illustrations Charts Scatter ps rklines Filter el gi M c3 wf f B3 100 1 Scatter with Smooth Lines and Markers Compare pairs of values Use it when there are a few data points in x axis order and the data represents a function Value kvants N laip au Chart Types Figure 74 Scatter chart creation Then right click on the chart line and select Add Trendline Figure 75 Gi TEL TONIKA
90. ration when using two LLS sensors at once if one is used then the polynomial calculation must be done on the server side COM Settings Baudrate 19700 i Mode LLS Mode SS COM Settings Baudrate 19200 hal Advanced LLS Setup Parity None S Mode BS Mode sl Binary timeout CM Log Mode l SE Sniff Mode rein 1 amp Log Made l Rcceleromete Log Wade Pretin 2 e E SEH l U Mode Frefis 3 RFID Mode RFID MF Mode Garmin Mode emperature Settings CoM TCP Link Mode e COM TCP Link Mode Binar Reserved Mode d Reserved Mode Reserveds Mode Reserved4 Mode ID IT BES Figure 78 LLS mode settings in Global parameters Then click Advanced LLS Setup in COM2 settings At the pop upped window Figure 79 enter the obtained values of a0 a5 in the appropriate places and click Write Polynoms ze LLS Polynoms le Polwnorms for sensor Polwnome for sensor 2 GNSS al available gt alll 30 96800000 al 0 00000000 a al 34 39000000 100000000 19200 D az 2 93530000 0 o0000000 LLS Mode D si 0 32250000 Jo meng fleesch a 10 057 00000 00000000 19200 5 Hone 1 3 4 value range 30 Y Binary timeout 10 LEES Figure 79 LLS sensor advanced polynomial setup After the configuration is saved successfully FM5300 is ready to send measured fuel level For additional information about LLS sensors their configuration and connectivity to FM530
91. re 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 finishes Geofencing Geofencing is another feature which is highly customizable and can detect wherever a car enters or leaves customized areas More about Geofencing can be read in chapter Error Reference source not found 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 the car leaves Auto Geofencing zone without authorization and FM5300 device automatically sends high priority record to AVL application 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 can be downloaded from http avl1 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 Lates
92. rios 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 23 All values of these parameters are described in chapter 10 Features Scenarios Digital Output No usage scenarios Authorized Driving Disable ll Edit Buttons List buttons Ignition ON Din 0N DOUUTZ 0N Button attach gt DOUT 2 0FF Digital Output Nol usage scenarios Eco Driving Disable hi da Max Acceleration Force 23 Si m s 2 Max Braking Farce 25 mis 2 Max Comernng Force 21 CA ms 2 View advanced T Over peeding Disable T Immobilizer Disable ag Max Allowed Speed 30 Ignition ON Dind ONT gt DOUT 2 0 Button attach gt DOUT 2 0FF Figure 23 FM53 Features gt Scenarios Configuration 6 3 1 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 For distance counting IO od
93. rred These parameters are automatically configured when Garmin mode is selected if DeepSleep enabled change to Sleep Send Period 1 Record refresh timeout 90900900 sec ignores weektime timesync and records 10 5 1 4 Firmware Configuration Supported Garmin protocols A606 A607 Blocked Garmin ID es e Command 0A e Date Time Data OE e Unit ID ESN 26 e Pvt Data 33 e Legacy Stop Message 87 e Legacy Text Message 88 e Ping 0260 e Ping response 0261 e Product ID Request 0001 e Product ID Data 0002 FM send ACK the these packets ant these packets are not sent to server to reduce traffic Allowed Garmin ID s e ACK Op e NAK 15 e Fleet Management Packet A1 Note If packet are not listed here packet ID will be ignored COM TCP Link Mode In this mode link with external device using text messages can be established Any string of data coming to COM will be routed to server if link is currently active First message will be packet to special packet If you want to send message to COM you need to pack in special packet 1 Globals gt COM2 Settings gt Baudrate any of available baudrates 2 Globals gt COM2 Settings gt Mode TCP Link Mode 3 Globals gt COM2 Settings gt Parity any setting These parameters are automaticaly configured when TCP Link mode is selected Record refresh timeout 9999999 sec ignores weektime timesync and records For additional information of special pac
94. s Figure 27 FM53 Features gt Geofencing Configuration 2 Auto Geofencing option can be configured by following parameters Figure 27 e Activate Enable or Disable Autogeofence functionality e Activation TMO Time period before Geofence is activated after vehicle stops e Deactivate By Ignition if ignition becomes high it will drop AutoGeofenze Zone Button if iButton is attached it will drop AutoGeofence Zone e Edit iButton List if list is not empty attached iButton is tested against iButton list if match is found AutoGeofence zone is dropped e Priority Priority of generated event which will be applied to saved record e 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 No Event Auto Geofencing does not require entering coordinates instead it requires GPS visibility If vehicle stopped and activation timeout is reached Auto Geofence will be created around the vehicles last position by set Radius value Auto Geofence event generation works the same as Geofencing mentioned above 6 3 1 3 5 iButton List iButton list is used to enter authorized iButton ID codes which are used to authenticate driver in Authorized driving and Auto Geofencing options m Features iButton List Attention ES is used only with AUTHORIZED DRIVING scenario or AutoGeofencing
95. s Configuration 2 KI let KIKIKI KKK OO Ti c o 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 1 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 Error Reference source not found if Global parameter Profile switching on event is disabled Operator List Preferred Roaming Operator List Figure 21 FM53 Operator List Configuration 6 3 1 3 Features 6 3 1 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 22 Min Period time period change that initializes record save Min Angle angle change that initializes record save only if vehicle is moving Min Distance distance change that initializes record save only if vehicle is moving Send period GP
96. sponse is WARNING Undefined SN parameter X 11 22 banlist Returns a list of possible banned operators If device returns zeroes there are no banned operators saved Format A Bs C D Table 43 banlist Response details A B Banned operator code Time left S C Reason GSM or GPRS Counter how many times this operator code was already banned 11 23 crashlog Returns list of possible device crashes 11 24 braminfo Table 44 braminfo Response details Boot Uptime RST IWDF_RST BadRec 12 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 host computer It was designed specifically for automotive applications but is now also used in other areas SAE J1939 is the vehicle bus standard used for communication and diagnostics among vehicle components Based on the same architecture FMS protocol dedicated to telematics systems is available It has certain standardized parameters available such as fuel consumption engine work hours etc Please visit http www fms standard com for more information and message structure The FMS interface is an optional interface of different truck manufacturers Supported information is dependent upon vehicle equipment For the full information set additional Electronic Control Units ECU may be required Please contact the manufacturer or you
97. t MS Net Framework 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 the 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 Gi TEL TONIKA FM5XXX Configurator Version 1 1 1 7 File Device Help Disconnect Load Save Load Defaults Save to File Load from File Reset device Get Actual Profile Add Keyword Profile 1 Profie2 Profie3 Profile4 Global Parameters IMEI 356307040206962 Source File SYSTEM version 01 01 04 Hardware Version Int Bat NYS MY Sleep Settings GSM Sleep Mode Disable bi e 3 Features Security status Unsecured SimPin status no sim Figure 12 FM5300 Configurator window 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 w
98. talled calibrated tested only by qualified authorized person installer technician mechatronic 15 1 Specifications Supply voltage DC V 10 50 Current consumption mA for 12 24 V 25 50 Operation temperature Celsius degrees 40 85 Working mode Weight kg Working pressure 15 2 Hardware e Operation principle capacitive e Output RS 232 e Standard probe lengths 700 1000 1500 mm e Optocoupler isolation on both power and signal circuits 15 3 Connecting LLS to FM5300 In order to use LLS fuel counter the newest firmware version is needed which can be obtained from Teltonika or a representative Firmware is updated by RILS system over GPRS or using cable update method see chapter 4 for more information The LLS fuel sensor must be connected to the FM5300 device The FM5300 LLS fuel sensor schemes are shown below Figure 711 supply 87654321 RJ 45 plug Figure 71 FM5300 LLS fuel sensor connection scheme RJ 45 male plug Teltonika is not responsible for any changes made by the manufacturer which is not declared in fuel level sensor documentation Then FM5300 must be configured Both fuel level and fuel temperature has to be set up by configurator s I O menu see Figure 722 BOn H Fuel level meter 1 sl Disabled sl Enabled Digital Input 1 ert Bun 11 Fuel level meter 1 D 1 2 ES 4 D Analog Input 2 ry B T a 9 12 Fuel temperature 1
99. te 0 OFF 1 restarting 2 ON but no fix 3 ON and operational 4 sleep mode Answer Example INI 2007 8 24 10 15 RTC 2007 8 24 12 43 RST 2 ERR 11 SR 182 BR 0 CF 0 FG 0 FL 0 UT 0 P 1 PO 0 P1 1 P2 0 P3 0 P4 0 SMS 2 NOGPS 0 0 GPS 3 SAT 7 RS 7 Error Counter 11 14 deleterecords Deletes all saved records from device memory Device does not send a response back to the sender 11 15 readio Table 39 readio Response details D 10 element 1D lO Element value Answer Example IO ID 3 Value 0 11 16 setdigout X Y Z W Sets digital outputs to ON or OFF state for some time if needed Value is written as a row for OUT1 OUT2 OUT3 OUT4 values Example setdigout 0010 0 0 5 0 will set OUT3 to high level for 5 seconds while OUT1 OUT3 and OUT4 to low level Ans example DOUTS are set to 0010 TMOs are 0 0 5 0 Out1 Scenario Enabled Out2 Scenario Disabled 11 17 getparam H H HH Read parameter value ID consists of 4 digits first digit identifies profile second third and fourth identifies parameter ID as described in Parameters Configuration chapter Table 40 getparam Response details Description PID Profile number and parameter ID Value Parameter value Example getparam 1245 command will request server IP address in profile 11 18 setparam HHH Sets new value for parameter ID consists of 4 digits first digit identifies profile second t
100. ttings NOTE Garmin FMI protocols are supported only in TCP data transfer mode Garmin Fleet management Interface documentation can be downloaded from Official Garmin web page http developer garmin com download FMI_v2 5 Zip Software version updates http www8 garmin com support download jsp For more information about Garmin PND device connectivity to FM5300 and additional information please contact to your local sales representative 15 LLS SENSOR LLS sensor series liquid level sensors are solid state capacitive devices with no moving parts The sensors use capacitive technology to produce accurate liquid level measurements of standard factory grade DIESEL OIL and PURE GASOLINE BENZINE carbon fuels The LLS sensor liquid level sensors are strictly prohibited to use in any liquids which are not the factory grade carbon fuels or contain BIOFUEL METHANOL ETHANOL UREA and similar aggressive components in pure form or as additives for factory grade carbon fuels for use in INTERNAL COMBUSTION ENGINES Operating media Diesel fuel oil pure gasoline benzene IMPORTANT The power supply is 10 50 VDC stabilized The wrong polarity or connection of power supply will damage or destroy the device Prohibited for test or use in water and any other liquids which are not factory grade carbon fuels Fit the plastic insulation cap on the end of the central rod after installation accordingly to installation guide To be ins
101. ve to be set up Go to Global parameters and set up COM1 or COM2 settings to RFID Mode or RFID MF7 Mode the used mode depends on the mode that the RFID reader works See Figure 677 The Baudrates for each mode are RFID Mode 57600 RFID MF7 Mode 9600 You cannot set RFID modes for both COM ports one has to be chosen either COM1 or COM2 COM Settings Baudrate Mode RFID Mode zl Silent Mode COM2 Settings Maes Baudrate r View advanced I Temperature Settings COM TCP Link Mode Binary 4 Reserved Mode Number Reserved2 Mode Number 1 Reserved3 Mode Reserved4 Mode Number 0 Dallas_0 v Continous Odometer Settings Continous Odometer Disable Start Value fo Garmin Settings Garmin Ping Enable al Garmin Unicode Enable ll Figure 67 RFID Global parameter settings The difference between RFID Mode and RFID MF7 Mode is that in RFID Mode FM5300 understands RFID messages that are in hexadecimal format and RFID MF7 Mode understands messages that are in decimal format For example RFID Mode message SaaS02S03S04 17S89S00S01 RFID MF7 Mode message 1213141519 The chosen mode has to correspond to the RFID reader s mode What type of RFID is sent to FM5300 depends on the reader For more information about RFID ID s and devices please contact to your local sales representative 14 GARMIN Garmin provides a Fleet Management Interface Tool Kit which conne
102. vent forces module to send AVL packet to server via GPRS and if GPRS fails it sends AVL packet using SMS mode if SMS is enabled in SMS settings Then it switches its operating profile to Profile 4 for details see chapter Error Reference source not found SW2X priorities switch profiles on event SW21 Profile 1 SW22 Profile 2 and so on 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 Ki 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 a 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 l DESCRIPTION milliseconds Selected data source value input averaging constant are calculated by following formula VAL 1 x CONST 1 REALVAL CONST VAL Where vAL M Value calculated during actual cycle vAL M t
103. wipe clean the data on the Garmin PND e Clean up messages in inbox remove stops Enhanced protocols Canned Responses Messages e Fleet managers can communicate by sending up to 200 canned responses from server to be stored directly on Garmin devices e Up to 50 of these canned responses can be utilized for any given scenarios e Drivers can store up to 120 canned messages eliminating the need to type while driving Status Protocol e Up to the minute communications that allow drivers to automatically send status updates e Driver s units can store up to sixteen status indicators such as start stop shift on off break etc 14 2 Supported features on Tavl client application Tavl client application lets user to use the following features of GARMIN FMI 1 Text messaging 2 Destination message 3 ETA request 14 3 Text messaging Text messaging feature lets user to communicate with driver user that uses Garmin device by sending text messages via GPRS 14 4 Destination message Destination message is used to inform a driver of a new destination When Garmin device receives a destination message from server it displays it as Stop to the driver and also gives the Gi TEL TONIKA driver ability to start navigating to the Stop location New destination in Tavl client is represented as Geozone so new Geozone as destination has to be created first 14 5 ETA request message ETA Estimated Time
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