Teltonika FM36M1 User Manual

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FM36M1 User Manual

V1.0

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Summary of Contents for Teltonika FM36M1

Page 1 FM36M1 User Manual V1.0...
Page 2: Table Of Contents
CARD AND ATTACH BATTERY INTO DEVICE FM36M1 ....................16 NSTALLING DRIVERS LED ........................17 AVIGATE LED ........................17 TATUS FM36M1 S 26* ....................... 18 OCKET USB ........................... 19 ........................20 CCESSORIES FIRMWARE .......................... 24 OPERATIONAL BASICS ......................26 ....................... 26 PERATIONAL PRINCIPALS ........................
Page 3 ......................58 COMMAND LIST 6.1.1 getstatus ......................... 60 6.1.2 getweektime ......................60 6.1.3 getops ........................60 6.1.4 getcfgtime ......................60 6.1.5 getgps ........................61 6.1.6 ggps ........................61 6.1.7 getver ........................61 6.1.8 getinfo ........................62 6.1.9 getio ........................62 6.1.10 readio # ........................
Page 4 I\O Send as 0 when ignition is off ................89 ....................89 EVENT CONFIGURATION 8.9.1 I/O#1 element SMS event configuration (ID=5100) ..........89 FM36M1 WITH LIGHT VEHICLES CAN ADAPTER LV-CAN200/ALL-CAN300 ......92 LV-CAN200/ALL-CAN300 ........92 URPOSE OF IGHT EHICLES DAPTER LV-CAN200/ALL-CAN300 ............
Page 5 ID ........................96 ARAMETERS SMS C ......................102 ONFIGURATION CAN P SMS ................104 ROGRAM UMBER REQUEST BY LV-CAN SMS ....................104 INFO BY 9.10 ........................104 EFERENCES MOUNTING RECOMMENDATIONS ................105 10.1 ......................105 ONNECTING IRES 10.2 ....................105 ONNECTING OWER OURCE...
Page 6: Introduction
DC. The allowed range of voltage is 10 V...30 V DC. To avoid mechanical damage, it is advised to transport the FM36M1 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.
Page 7: Legal Notice
SMS – Short Message Service. AC/DC – Alternating Current/Direct Current. I/O – Input/Output. Record – AVL data stored in FM36M1 memory. AVL data contains GNSS and I/O information. AVL packet – data packet that has been sent to server during data transmission. AVL packet...
Page 8: Basic Description
With Teltonika CAN adapters, FM36M1 can be even used in agriculture or construction & mining. Moreover FM36M1 supports LTE CAT M1 and NB IoT, with additional GSM backwards compatibility, which makes this device usable with newest, cost efficient and most popular technologies.
Page 9 o Status; • Internal USB port; • Internal GSM antenna; • Internal GNSS antenna; • INPUT 5 and INPUT 6, for LV-CAN200 and ALLCAN300 adapter connection; Hardware features: • Cortex®-M3 processor; • 8 Mbit internal Flash memory; • Built-in accelerometer sensor; GNSS features: •...
Page 10: Technical Features
Battery charge current: 100 mA Micro USB socket Rated input current: 250 mA Max. Operation temperature: -25⁰C ... +55⁰C Storage temperature: -40⁰C ... +70⁰C Storage relative humidity 5 ... 95 % (no condensation) Internal fuse: 3A, 125V Table 1. FM36M1 specifications...
Page 11: Electrical Characteristics
Figure 1. FM36M1 view & dimensions (tolerance ±2mm) 2.4 Electrical characteristics VALUE Min. Typ. Max. Unit CHARACTERISTIC DESCRIPTION Supply Voltage: Supply Voltage (Recommended Operating Conditions) Drain current (Digital Output1 OFF) 241.69 μA Drain current (Digital Output1 ON) 5.16 Drain current (Digital Output2 OFF) 240.26...
Page 12 Input Voltage (Recommended Operating Supply Conditions) voltage Input Voltage threshold (DIN1) Input Voltage threshold (DIN2) Input Voltage threshold (AIN1) Input Voltage threshold (AIN2) Analog Input: Input Voltage (Recommended Operating Conditions), Range1 Input resistance, Range1 kΩ Measurement error 0.47 Additional error ±17.3 Input Voltage (Recommended Operating Conditions) Range2...
Page 13: Absolute Maximum Ratings
Analog Input Voltage (Absolute Maximum Ratings) 2.6 Technical Information about internal battery FM36M1 internal battery is used for detecting external voltage disconnection. CAUTION: RISK OF EXPLOSION IF BATTERY IS REPLACED BY AN INCORRECT TYPE. DISPOSE OF USED BATTERIES ACCORDING TO THE INSTRUCTIONS.
Page 14: Connection, Pinout, Accessories
3 CONNECTION, PINOUT, ACCESSORIES How to insert SIM card and attach battery into FM36M1 device:  Gently open FM36M1 case using screwdrivers...
Page 15   Insert SIM card as shown Attach battery   Attach FM36M1 to the case Attach top housing cover  Device is ready...
Page 16: Installing Fm36M1 Drivers
Please download Virtual COM Port drivers from Teltonika website: http://avl1.teltonika.lt/downloads/FM36/vcpdriver_v1.3.1_setup.zip Installing drivers: Extract and run VCPDriver_V1.3.1_Setup.exe. This driver is used to detect FM36M1 device connected to the computer. Click ‘Next’ in driver installation window (figures below): Figure 2. Driver installation window This will launch device driver installation wizard.
Page 17: Navigate Led
Figure 4. Driver installation window You have now installed drivers for FM36M1 device successfully. Navigate LED Behavior Meaning Permanently switched on GNSS signal is not received Blinking every second Normal mode, GNSS is working GNSS is turned off because: •...
Page 18: Fm36M1 Socket 26
FM36M1 Socket 26* Input 6 12 INPUT 5 DIN 1 11 1W DATA DIN 2 10 1W POWER AIN 2 OUT 2 AIN 1 OUT 1 GND (-) VCC 1030 (+) Figure 5. 26 socket pinout Figure 6. FM36M1 sticker...
Page 19: Usb
Table 2. Socket 2x6 pinout description. Micro USB connector Figure 7. Micro USB type B connector FM36M1 connected to PC creates an STM Virtual COM Port, which can be used as a system port (to flash firmware and configure the device):...
Page 20: Accessories
One of the realized features is 1-Wire® data protocol, which enables connection of thermometer (DS1820, DS18S20 and DS18B20) and I-Button type: DS1990A (Figures 9 and 10 show FM36M1 and 1-wire® device connection schemes). Left row of pins 1W.PWR Right row of pins (FM36M1 –...
Page 21 Figure 10 shows the connection scheme to the FM36M1 and fuel tank sensor through Analog input 1. After the connection to the tank fuel level sensor, calibration is needed. Calibration is needed because most fuel tank sensors are not linear.
Page 22 Alarm buttons, door sensors, etc. Alarm buttons, door sensors, ignition, etc. return two states: high or low voltage. Digital inputs are used to read this information. Figure below shows how to connect alarm button, door sensor, etc. Figure 12. Panic button connection In cases when sensor output signal is negative, an additional relay has to be installed to convert negative signal to positive.
Page 23 Immobilizer relay When connected as shown below, FM36M1 disables engine starter when output is OFF. More details about relays can be found below. Figure 14. Immobilizer relay connection Relays An ordinary automotive relay is used to invert input signal or to immobilize engine starter.
Page 24: Firmware
FM36M1 functionality is always improving, new firmware versions are developed. Current module firmware version can be retrieved from configurator. Connect FM36M1 to PC with the USB cable. Launch “Firmware Updater”, select COM port to which device is connected, click connect, and when IMEI and Firmware version fields are filled, start the update.
Page 25 Figure 17. Firmware updating processes When you see a green table like in Figure 17, it means that the firmware is flashed to FM36M1 successfully. You may now close the update window and start using your FM36M1 device.
Page 26: Operational Basics
5.2.1 Sleep mode FM36M1 is able to go to Sleep mode after configured interval of time. While in sleep mode, FM36M1 sets GNSS receiver to sleep mode and it isn’t making periodic records (only event records is being recorded with last known coordinate and sent to AVL server). As a result power usage decreases allowing saving vehicle battery.
Page 27: Deep Sleep Mode
FM36M1 can enter deep sleep mode if ALL of these conditions are met: • FM36M1 has to be configured to work in Deep Sleep mode and Sleep timeout set; • Device must be synchronized time with GNSS satellites or via NTP;...
Page 28: Virtual Odometer
It keeps adding these intervals until it is time to make a record, then FM36M1 records its location and adds odometer value, which is equal to the sum of all distances, measured every second.
Page 29: Trip
Jamming scenario. Radio jamming is the (usually deliberate) transmission of radio signals that disrupt communications by decreasing the signal to noise ratio. When jamming detection is enabled, FM36M1 informs (with buzzer or LED, connected to DOUT1) driver about jamming event 5.4.2...
Page 30: Configuration
FM36M1 has one user editable profile, which can be loaded from device, and saved. User can also revert to default settings, by pressing Load Defaults button. After any modification of configuration settings it has to be saved to FM36M1 device, otherwise it will not be written to device.
Page 31 FM36M1 is more configurable. Figure 19. Advanced Configuration window FM36M1 Configurator is divided into main areas: 1 – main button area, 2 – information area, 3 – settings menu, 4 – parameters and values menu, 5 – recommended configuration values.
Page 32: Read Records
‘Add Keyword’ / ‘Change Keyword’ / ‘Switch Security Off’– buttons are used to protect configurator from unauthorized access to configuration. Keyword is 4 – 10 symbol length. If keyword is set, every time user reconnects FM36M1 to USB port, user will be asked to provide valid keyword when connecting FM36M1 to configurator.
Page 33: System Settings
3854 data records if GSM is not available at the moment. It will send data later when GPRS is available again. Note that FM36M1 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.
Page 34 Stop Detection Vehicle on Stop mode Vehicle Moving mode Source Ignition If ignition (configured Ignition If ignition (configured Ignition (recommended) Source) is logic low Source) is logic high Msensor (movement Internal movement sensor does Internal movement sensor detects sensor) not detect movement movement GNSS fix is available and vehicle GNSS fix is available and vehicle...
Page 35: Records Settings
13,2 – 16 V, or 27 – 32 V. Records settings Here user can modify if FM36M1 device will send newest records first, meaning, that the most important thing is to know recent position of car, older records are being sent right after newest records arrive to AVL application.
Page 36: Gsm Settings, Sms Part
Essential fields in ‘SMS’ part are ‘Login’ and ‘Password’. The login and password are used with every SMS sent to FM36M1. If login and password are not set, in every SMS sent to FM36M1 device two spaces before command have to be used (<space><space><command>).
Page 37: Gsm Settings, Operator List
Figure 25. Operator list configuration If operator list is left empty, it will allow using GPRS to any GSM operator. Please note that FM36M1 will work in Unknown mode only (make sure it is configured to allow data sending – GPRS context is enabled).
Page 38 This functionality allows having different AVL records acquire and send parameters values when object is moving or stands still. Vehicle moving or stop state is defined by Stop Detection Source parameter. There are 3 ways for FM36M1 to switch between Vehicle on Stop and Vehicle Moving modes see section 5.7.
Page 39 ‘Min. Saved Records’ defines minimum number of coordinates and I/O data that should be transferred with one connection to server. If FM36M1 does not have enough coordinates to send to server, it will check again after time interval defined in ‘Sending Period’...
Page 40 New GPRS context is opened if time is 10 minutes till time checked in table. Therefore if all boxes are checked, FM36M1 is able to open new connection anytime. At scheduled time match FM36M1 checks for GPRS session activity.
Page 41 FM36M1 is able to collect records using four methods at the same time: time, distance, angle and speed based data acquisition: Time based data acquiring (Min. period) – records are being acquired every time when defined interval of time passes. Entering zero disables data acquisition depending on time.
Page 42: Features Settings
5.14 Features settings For more information about available Scenarios, Trip, Geofencing and iButton list, refer to 5.4 chapter. 5.14.1 Scenarios settings In Scenarios window six different scenarios are available: Green driving, Over Speeding, Excessive Idling, Immobilizer, iButton List checking and Jamming. All scenarios can use DOUT together, but if DOUT1 is assigned to Immobilizer, other scenarios can’t control it.
Page 43: Trip Settings
• Jamming detection (if selected DOUT1) DOUT1 is ON, while modem is fixing radio frequency jamming. After jamming is over, DOUT1 is deactivated. • Authorized driving (if selected DOUT2) DOUT2 is continuously OFF. Dout2 turns ON if Ignition turns ON (configured Ignition Source =1).
Page 44: Geofencing Settings
Figure 31. Trip continuous distance counting parameter example 5.14.3 Geofencing settings FM36M1 has 5 configurable Geofence zones and it can generate an event when defined Geofence zone border is crossed. Frame border – frame border is an additional border around Geofence zone. It is additional area around defined zone used to prevent false event recording when object stops on the border of the area and because of GNSS errors some records are made inside area and some –...
Page 45 Track Nr. 2 Track Nr. 1 Figure 32. Geofence border Shape – can be rectangle or circle Priority – priority of Geofence event: low, high or panic. These levels define priority of event information sending to server. See I/O element description for more details about priorities.
Page 46 If vehicle stopped and activation timeout has passed, an AutoGeofence will be created around vehicle’s last position with set Radius value. AutoGeofence event generation works the same as Geofencing mentioned above. Figure 34. Geofence configuration Note: FM36M1 operates GMT:0 time without daylight saving.
Page 47: Sms Events
The sent SMS messages format is according to: “Date Time EventText” For example, if FM36M1 is configured to send an SMS (figure 36), when Digital Input 1 reaches High level, with priority High and configured to generate event on both range enter and exit (figure37), then the sent SMS is: “2016/1/20 12:00:00 Digital Input 1”...
Page 48 (numbers, letters and symbols in ASCII, except for comma “,”). ATTENTION! If FM36M1 is in Deep Sleep mode and SMS event occurs with LOW priority (which does not wake up FM36M1), then the device does not send the message. It is saved in device memory until it wakes up from Deep Sleep mode and GSM modem starts working normally.
Page 49 5.14.4.1 SMS events configuration Scenarios To configure SMS events for scenarios, open Scenarios window and Enable desired scenario. Then go to GSM ->SMS -> SMS events window and activate SMS event for Enabled scenario. Figure 38 shows how to enable Green Driving and Immobilizer SMS Events. Figure 38.
Page 50 Trip In order to configure Trip SMS events click on Trip window and Enable Trip feature (figure 40). Then go to GSM -> SMS -> SMS Events settings and Enable Trip SMS event. After enabling SMS Events (figure 41), trip event will be triggered and message sent, when Trip starts (GNSS speed exceeds the speed in Start Speed (ex.
Page 51 Figure 42. Geofence SMS event configuration Figure 43. Geofence SMS event configuration AutoGeofence SMS events for AutoGeofence are configured the same as in Geofence. AutoGeofence is in Features -> Auto geofencing (figure 44), for SMS events configuration, go to GSM -> SMS -> SMS Events (figure 45).
Page 52 Figure 45. AutoGeofence SMS event configuration I/O events FM36M1 sends SMS event message when a configured I/O property enters and/or exits its configured High/Low boundaries or Hysteresis event generation is chosen (Monitoring does not generate event, so SMS event could not be configured). Every IO element SMS event can be configured to send individual message to different numbers.
Page 53: I/Osettings
5.15 I/O settings When no I/O element is enabled, AVL packet comes with GNSS information only. After enabling I/O element(s) AVL packet along with GNSS information contains current value(s) of enabled I/O element. Permanent I/O elements (are always sent to server if enabled) Property Name Description Digital Input Status 1...
Page 54 Dallas Temperature 2 10 * Degrees (°C), -55 - +115, if 3000 – Dallas error Dallas Temperature 3 10 * Degrees (°C), -55 - +115, if 3000 – Dallas error Battery Voltage Voltage: mV Battery Charging Current Current: mA Ignition Ignition status indication.
Page 55 LVC Engine Work Time Value range: 0-4294967295 LVC Engine Work Time Value range: 0-4294967295 (counted) LVC Total Mileage Value range: 0-4294967295 (counted) LVC Fuel Consumed Value range: 0-4294967295 (counted) LVC Fuel Rate Value range: 0-4294967295 LVC AdBlue Level Value range: 0-4294967295 (percent) LVC AdBlue Level (liters) Value range: 0-255...
Page 56 Enabled or disabled field – 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 except DIN1, External Voltage and Speed are disabled and FM36M1 records only them with GNSS coordinates unless there is special request from client to change default configuration.
Page 57: Monitoring
AVL packet using SMS mode if SMS is enabled in SMS settings. High and Low levels – define I/O value range. If I/O value enters or exits this range, FM36M1 generates event. “Generate event” parameter defines when to generate event – when value enters defined range, exits it or both.
Page 58: Hysteresis
SMS message it cannot arrive to FM36M1 device, because GSM/GPRS module is disabled most of the time (wake up depends on Send Period parameter). FM36M1 will receive the SMS when it wakes up (exits deep sleep mode).
Page 59 getops List of currently available GSM operator getcfgtime Date and Time of last successful configuration ggps Google Map Link information getgps Current GPS data and time cpureset Reset CPU resetprof Reset all FLASH1 profile configuration to default profile getver Device / Modem / Code version information getinfo Device runtime system information deleterecords...
Page 60: Getstatus
6.1.1 getstatus Response details Description Indicate module connection to server at the moment: 0 – Not Data Link connected, 1 – connected GPRS Indicate if GPRS is available at the moment Voice Call status: 0 – ready, 1 – unavailable, 2 – unknown, 3 – Phone ringing, 4 –...
Page 61: Getgps
6.1.5 getgps Response details Description Indicates valid (1) or invalid (0) Gps data Count of currently available satellites Latitude (Last good Latitude) Long Longitude (Last good Longitude) Altitude Speed Ground speed, km/h Ground direction, degrees Date Current date Time Current GMT time Example: GPS:1 Sat:12 Lat:54.667473 Long:25.255543 Alt:151 Speed:0 Dir:300 Date: 2017/9/25 Time: 10:39:53...
Page 62: Getinfo
6.1.8 getinfo Response details Description Device Initialization Time RTC Time Restart Counter Error Counter Number of Sent Records Number of broken records Profile CRC Fail counter Failed GPRS counter Failed link counter Server response timeouts counter Sent SMS Counter NOGPS No GPS Timer GPS receiver state.
Page 63: Setdigout ## Y1 Y2
6.1.11 setdigout ## Y1 Y2 Sets digital outputs to ON or OFF state (for some time if needed). Value is written as a row for OUT1 and OUT2 values. Example: ‘setdigout 01 0 5’ will set OUT2 to high level for 5 seconds, while OUT1 to low level.
Page 64: Banlist
7.# - MODE (0-TCP/1-UDP) Parameters are separated by comma (no spaces needed). In case you don’t 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 Response details Description FLUSH SMS Accepted FLUSH SMS Accepted...
Page 65: Debug Mode
KernVar: 49 MdlID: 8884443332221110” 7 Debug mode FM36M1 is able to transmit its current state when connected to PC using USB cable. It is used to detect errors and provide information to possible solutions when operating as unexpected. Download Terminal from: http://avl1.teltonika.lt/Downloads/Software/Terminal.zip.
Page 66: System Parameters
(value 0) module will never enter sleep mode, in sleep mode (value 1) module reduces level of power usage by turning GNSS module to sleep, in deep sleep mode (value 2) module turns GNSS module to sleep and switch GSM module off (note, that FM36M1 do not receive SMS while in deep sleep).
Page 67: Ignition Source (Id=1004)
8.2.6 Ignition Source (ID=1004) Ignition Source sets ignition triggered functionalities. Parameter Value 0 (By Power Voltage – default) Ignition Source 1004 1 (By Din1) 2 (By Movement sensor) High Voltage Level* 1005 Min.: 0, Max.: 30000 (mV) Low Voltage Level* 1006 Min.: 0, Max.: 30000 (mV) * - used when External voltage selected as ignition source.
Page 68: Saving/Sending Without Time Synchronization (Id=201)
8.2.10 Saving/Sending without time synchronization (ID=201) When this feature is enabled (value = 1), then records can be saved and sent to server without time synchronization. Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type 8.2.11 GNSS System (ID=202) This parameter sets Satellite System, available values: 0 –...
Page 69: Gsm Parameters
device sends data to server every 86400 seconds (24 hours), the operator might disconnect the link earlier and the device will have to connect to the server anew. This may cost extra, depending on the operator GPRS data charge. It is strongly recommended, when using active data link timeout, that data sending to the server should not be very rare (24 hours or more).
Page 70: Target Server Port (Id=1246)
Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type 31 char GPRS content activation (ID=1240) S8[16] string Target Server Port (ID=1246) 8.4.6 Target Server Port (ID=1246) Parameter defines AVL data destination server port number. Example: 12050 Minimum Maximum Recommended...
Page 71: Sms Data Sending Settings (Id=1250)
Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type SMS Data send week time -720 +840 schedule (ID=1273) 8.4.12 SMS data sending settings (ID=1250) Parameter allows or does not allow sending AVL data using binary SMS. If SMS use is not allowed value is 0 and 1 if SMS use is allowed.
Page 72: Data Acquisition Modes Parameters
X defines starting position that is changed: If X is from 0 to 49, X means index of operator code which has to be configured. Up to 20 operator codes may be configured in 1 SMS. Example: setparam 1271 16 24602,24603,24605 Here 16 , 17 and 18...
Page 73: Home Network Gsm Operator Code "Vehicle Moving" Parameters
defined by 18 bytes (144 bits). Every n bit (beginning from the first bit (LSB) and ending 18 bytes bit (MSB)) indicates every 10 minute of the day (day has 1440 minutes). Sample: GPRS will be allowed on Monday to Friday at 8:00 and 16:00 GMT. The following value should be configured: 00011111 00000000 00000000 00000000 000000000 00000000 00000000...
Page 74 8.5.2.4 Min. Speed (ID=1556) This parameter indicates speed difference in order to acquire new record. If speed difference between last recorded coordinate and current position is greater than defined value, new record is stored. If value is 0 it means no records by Min. distance will be saved. Minimum Maximum Recommended...
Page 75: Roaming Network Gsm Operator Code "Vehicle On Stop" Parameters
8.5.3 Roaming Network GSM operator code “Vehicle on STOP” parameters 8.5.3.1 Min. Period (ID=1560) This parameter indicates time interval in seconds in order to acquire new record. If value is 0 it means no records by Min. period will be saved. Minimum Maximum Recommended...
Page 76 8.5.4.2 Min. Distance (ID=1571) This parameter indicates distance in meters in order to acquire new record. Record is stored when the distance between previous records is greater than parameter’s value. If value is 0 it means no records by Min. distance will be saved. Minimum Maximum Recommended...
Page 77: Read Chapter 8.5.1.4
8.5.4.6 Min. Saved Records (ID=1573) This parameter defines minimum number of records in one data packet that can be sent to server. It has higher priority than Data Send Period (ID=1574). Minimum Maximum Recommended Goes with (depends on) Value value value value parameters...
Page 78: Unknown Network Gsm Operator Code "Vehicle Moving" Parameters
8.5.6 Unknown Network GSM operator code “Vehicle MOVING” parameters 8.5.6.1 Min. Period (ID=1590) This parameter indicates time interval in seconds in order to acquire new record. If value is 0 it means no records by Min. period will be saved. Minimum Maximum Recommended...
Page 79: Features Parameters
8.5.6.5 Min. Speed Source (ID=1597) This parameter defines Source for speed difference calculation: 0 – GPS, 1 – LVCAN Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type Min. Period (ID=1590) Min. Distance (ID=1591) Min. Angle (ID=1592) Min.
Page 80: Max. Acceleration Force (Id=1602)
8.6.2 Max. Acceleration Force (ID=1602) It is Max. allowed acceleration force which can be reached while accelerating without triggering harsh acceleration event. Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type 0.25 0.85 0.25 Float Green Driving scenario (ID=1600) 8.6.3 Max.
Page 81: Immobilizer Scenario (Id=1607)
8.6.8 Immobilizer scenario (ID=1607) Immobilizer detection scenario can be enabled to work with 3 different ways: Dout do not control scenario (value 1), Dout1 controls scenario (value 2), Dout2 controls scenario (value 3). To disable Immobilizer detection scenario value 0 is used. Minimum Maximum Default value...
Page 82: Time To Movement (Id=1612)
8.6.13 Time to movement (ID=1612) If ignition is ON and no movement, event will be generated when TMO reached. This functionality is 1 – enabled, 0 – disabled (default). Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type Time to stationary (ID=1611)
Page 83: Enable Odometer Value Setting (Id=1284)
8.6.18 Enable odometer value setting (ID=1284) Enables entering the current value of the odometer. Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type 8.6.19 Continuous odometer value (ID=1285) Enters a current odometer value. Minimum Maximum Recommend Goes with (depends on) Value value...
Page 84 8.6.21.4 Geofence Zone #1 Generate Event (ID=1032) Generate event on: a) On exiting zone – value 0; b) On entering zone – value 1; c) On both – value 2; Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type...
Page 85: Autogeofencing
GeoFence Geofence Zone Zone’s Number parameters 1030-1036 1040-1046 1050-1056 1060-1066 1070-1076 8.6.22 AutoGeofencing 8.6.22.1 Activation Timeout (ID=1102) Parameter represents AutoGeofencing activation timeout in seconds. Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type 65535 Priority (ID=1103) 8.6.22.2 Deactivate by (ID=1100) Parameter defines Autogeofence deactivation source.
Page 86: Ibutton List (Id=7000-7499)
Radius (ID=1105) Parameter represents radius of circle with device coordinates in center, after activating AutoGeofence feature. Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type Priority (ID=1103) 1000000 Deactivate by (ID=1100) 8.6.23 iButton List (ID=7000-7499) Read 5.4.4. Minimum Maximum Recommended...
Page 87: I/O#1 Low Level (Id=2002)
8.7.3 I/O#1 Low level (ID=2002) Parameter defines low value of triggered I/O property. This parameter is used to set thresholds for I/O properties to generate events. Minimum Maximum Recommended Goes with (depends on) Value value value value parameters type I/O#1 Priority (ID=2000) I/O#1 High level (ID=2001) -2147483647 2147483647 I/O#1 event generation type...
Page 88 I/O element I/O Element Number parameters Digital Input 1 2000-2004 Digital Input 2 2010-2014 Digital Input 3 2020-2024 Digital Input 4 2030-2034 Analog Input 1 2040-2044 Digital Output 1 2050-2054 Digital Output 2 2060-2064 GNSS PDOP 2070-2074 GNSS HDOP 2080-2084 External Voltage 2090-2094 GNSS Power...
Page 89: Can Features
LV-CAN features 8.8.1 CAN Mode Choose an adapter which will be connected to device. Parameter Value 0 – Auto Detect CAN Mode 1620 1 – LV-CAN200 2 – ALL-CAN300 8.8.2 I\O Send as 0 when ignition is off Sends LV-CAN200/ALL-CAN300 I\O values as “0” when ignition turns off Parameter Value 0 –...
Page 90 External Voltage 5109 GNSS Power 5110 Movement Sensor 5111 Odometer Value 5112 GSM Operator 5113 Speed 5114 iButton ID 5115 Data Mode 5116 GSM Signal 5117 Deep Sleep 5118 Cell ID 5119 Area Code 5120 Dallas Temperature 1 5121 Dallas Temperature 2 5122 Dallas Temperature 3 5123...
Page 91 LVC Axle 5 Load 5154 LVC Control State Flags 5155 LVC Agricultural Machinery Flags 5156 LVC Harvesting Time 5157 LVC Area of Harvest 5158 LVC Mowing Efficiency 5159 LVC Grain Mown Volume 5160 LVC Grain Moisture 5161 LVC Harvesting Drum RPM 5162 LVC Gap Under Harvesting Drum 5163...
Page 92: Fm36M1 With Light Vehicles Can Adapter Lv-Can200/All-Can300
LV-CAN200 is used to read data from light vehicles, while ALL-CAN300 is used to read data from any type of transport: light vehicles, Trucks, buses, agriculture and other special transport. With those adapters FM36M1 device is able to collect and send vehicle data. LV-CAN200/ALL-CAN300 Technical characteristics:...
Page 93: Connecting Fm36M1 With Light Vehicles Can Adapter
Figure 54. Adapter signaling led 9.3 Connecting FM36M1 with Light Vehicles CAN adapter FM36M1 connection with CAN adapter is different than with other FM devices, when connecting ALL-CAN300 and LV-CAN200 adapters. FM36M1 has closed USB connector and CAN adapter is connected with INPUT 5 and INPUT 6 wires as shown in Error! Reference source not found.55.
Page 94: Connecting Light Vehicles Can Adapter
Connect car power supply lines to Pin 3 positive, Pin 4 Negative. Connect Light Vehicles Can adapter Pin 5 to FM36M1 Input 5 and Pin 6 to FM36M1 Input 6. Pins 9, 10 connection is optional it depends on exact car model.
Page 95: Offline Configuration
For example Speed changes, low fuel level, engine temperate, etc. Send data to server field – allows enabling CAN element so it is added to the AVL data packet and sent to the server. By default, all CAN elements are disabled and FM36M1 records only GPS data.
Page 96: Parameters Id
Figure 59. configurator example Available CAN Bus IO parameters and configuration can be found in configurator’s CAN tab (Figure 59) and in next chapter “Parameters ID”. Parameters ID When no I/O element is enabled, AVL packet comes with GPS information only. After enabling I/O element(s) AVL packet along with GPS information contains current value(s) of enabled I/O element.
Page 97 Table 9.1.1 ACQUIRED ALL-CAN PARAMETERS IO ID Param Param IO Measurement Remarks Property Input Size (Bytes) index units ALL-CAN300 Program number Module ID Min. Engine Work Time Engine Work Time Min. (counted) * meters Total Mileage Total Mileage meters (counted) * Ltr * 10 Fuel Consumed Fuel Consumed...
Page 98 Harvesting Drum RPM Gap Under Harvesting Drum see table Security State Flags 9.2.1 Tacho Total Vehicle Distance Trip Distance km/h Tacho Vehicle Speed Tacho Driver Card see table Presence 9.2.1 see table Driver1 States 9.2.1 see table Driver2 States 9.2.1 Driver1 Continuous Min.
Page 99 0x10 – Battery charging 0x20 – AIRBAG Byte1: 0x01 – CHECK ENGINE 0x02 – Lights failure 0x04 – Low tire pressure 0x08 – Wear of brake pads 0x10 – Warning 0x20 – ABS 0x40 – Low Fuel Byte2: 0x01 – ESP 0x02 –...
Page 100 Byte3: 0x01 – Unloader drive is ON. Unloading tube pivot is in idle position 0x02 – No operator! 0x04 – Straw walker is plugged 0x08 – Water in fuel 0x10 – Cleaning fan RPM 0x20 – Trashing drum RPM Byte4: 0x02 –...
Page 101 0x08 – webasto 0x20 – car closed by factory's remote control 0x40 – factory-installed alarm system is actuated (is in panic mode) 0x80 – factory-installed alarm system is emulated by module Byte2: 0x01 – parking activated (automatic gearbox) 0x10 – handbrake is actuated (information available only with ignition on) 0x20 –...
Page 102: Sms Configuration
SMS Configuration All LV-CAN200/ALL-CAN300 IO elements can be configured remotely via SMS command. First ID number is always ‘2’, second, and third ID number refers to specific LV-CAN200/ALL- CAN200 IO element (table 9.2). And the last ID number refers to sections – Property; Generation Type;...
Page 103 LVC Gap Under Harvesting Drum 2630-2634 LVC Security State Flags 2640-2644 LVC Tacho Total Vehicle Distance 2650-2654 LVC Trip Distance 2660-2664 LVC Tacho Vehicle Speed 2670-2674 LVC Tacho Driver Card Presence 2680-2684 LVC Driver1 States 2690-2694 LVC Driver2 States 2700-2704 LVC Driver1 Continuous Driving Time 2710-2714 LVC Driver2 Continuous Driving Time...
Page 104: Can Program Number Request By Sms
Table 9.5 LV-CAN200 IO parameters allowed values LV-CAN200 IO Element Minimum Maximum value value Speed Accelerator pedal position Total fuel used 99999999 Fuel level (liters) Engine RPM 8200 Vehicle distance 2145000000 Fuel level (PCT) Program number 9999 CAN Program Number request by SMS CAN program number can be obtained via SMS: SMS Text: “...
Page 105: Mounting Recommendations
GND vehicle computer. Connecting the GND at an arbitrary point to the mass of the car is unacceptable, as static and dynamic potentials on the line GND will be unpredictable, which can lead to unstable FM36M1 and even its failure.
Page 106: Module Installation
• FM36M1 must be placed sticker on TOP. • It’s forbidden to place FM36M1 under metal surfaces. • It’s recommended to place FM36M1 device far from car radio, speakers or alarm systems. • FM36M1 must be placed so its state is as horizontal as possible.
Page 107: Change Log
11 CHANGE LOG Date Version Comments 2018-08-06 Initial release...

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