Teltonika FMB641 Installation guide
Quick Manual
v1.3
Professional GNSS/GSM
terminal
FMB641
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Table of Contents
Know your device............................................................................... 3
Pinout................................................................................................. 4
Wiring scheme ................................................................................... 5
Set up your device ............................................................................. 6
How to insert Micro-SIM card and connect the battery................ 6
PC Connection (Windows)................................................................ 7
How to install USB drivers (Windows)............................................. 7
Configuration (Windows) ................................................................. 7
Quick SMS configuration.................................................................. 9
Mounting recommendations .......................................................... 10
LED indications................................................................................. 11
Characteristics.................................................................................. 11
Basic characteristics ....................................................................... 11
Electrical characteristics................................................................. 13
Safety information ........................................................................... 14
Certification and Approvals ............................................................. 15
Warranty........................................................................................... 16
Warranty Disclaimer........................................................................16
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Pinout
Pin number
Pin name
Description
1
GND (-)
Ground
2
CAN 1L
SAE J1939 CAN interface Low channel 1
3
1WIRE POWER
Power supply pin for Dallas 1-Wire® devices
4
DIN4
Digital input, channel 4
5
DIN2
Digital input, channel 2
6
CAN 2L
SAE J1939 CAN interface Low channel 2
7
AIN2
Analog input, channel 2. Input range: 0-30V/0-
10V DC
8
DOUT3
Digital output. Open collector output
9
DOUT2
Digital output. Open collector output
10
AIN3
Analog input, channel 3. Input range: 0-30V/0-
10V DC
11
VCC (+)
Power supply (+8-32 V DC)
12
CAN 1H
SAE J1939 CAN interface High channel 1
13
1WIRE DATA
Data channel for Dallas 1-Wire® devices
14
DIN3
Digital input, channel 3
15
IGN (DIN1)
Digital input, channel 1. DEDICATED FOR
IGNITION INPUT
16
CAN 2H
SAE J1939 CAN interface High channel 2
17
AIN1
Analog input, channel 1. Input range: 0-30V/0-
10V DC
18
DOUT4/AIN4
Digital output. Open collector output OR Analog
input, channel 4. Input range: 0-30V/0-10V DC
19
DOUT1
Digital output. Open collector output
20
K-Line
K-LINE interface for online Tachograph Vehicle
Data transfer
Figure 2 FMB641 Pinout
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Set up your device
How to insert Micro-SIM card and
connect the battery
1. Unscrew 4 screws counterclockwise that are located on the
bottom of the device.
2. Remove the cover.
3. Insert SIM card as shown with PIN request disabled or read
Security info how to enter it later in Teltonika Configurator.
Make sure that SIM card cut-off corner is pointing forward to
slot. SIM slot 1 is closer to PCB, SIM slot 2 is the upper one.
4. Connect battery as shown to device.
5. After configuration, see “PC Connection (Windows)”, attach
device cover back.
6. Screw in all screws. Device is ready to be mounted.
Figure 7 Micro-SIM card insert
Figure 6 Battery connection
Figure 5 Unscrew screws
Figure 4 Cover removal
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PC Connection (Windows)
1. Power-up FMB641 with DC voltage (8 –32 V) power supply
using power wires. LED’s should start blinking, see “LED
indications”. For configuration purpose only Mini USB
connection is enough to power the device.
2. Connect device to computer using Micro-USB cable:
▬You will need to install USB drivers, see “How to install
USB drivers (Windows)”
3. You are now ready to use the device on your computer.
How to install USB drivers
(Windows)
1. Please download COM port drivers from here.
2. Extract and run TeltonikaCOMDriver.exe.
3. Click Next in driver installation window.
4. In the following window click Install button.
Setup will continue installing the driver and eventually the
confirmation window will appear. Click Finish to complete the
setup.
Configuration (Windows)
At first FMB641 device will have default factory settings set. These
settings should be changed according to the user's needs. Main
configuration can be performed via Teltonika Configurator
software. Get the latest Configurator version from here.
Configurator operates on Microsoft Windows OS and uses
prerequisite MS .NET Framework. Make sure you have the correct
version installed.
Table 1 MS .NET requirements
MS .NET requirements
Operating
system
MS .NET Framework
version
Version
Links
Windows Vista
Windows 7
Windows 8.1
Windows 10
MS .NET Framework
4.6.2
32 and 64 bit
www.microsoft.com
Downloaded Configurator will be in compressed archive. Extract it
and launch Configurator.exe. After launch software language can
be changed by clicking in the right bottom corner (Figure 8
Language selection).
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Configuration process begins by pressing on connected device
(Figure 9 Device connected via USB).
After connection to Configurator Status window will be displayed
(Figure 10 Configurator Status window).
Various Status window tabs display information about GNSS,GSM,
I/O, Maintenance and etc. FMB641 has one user editable profile,
which can be loaded and saved to the device. After any
modification of configuration the changes need to be saved to
device using Save to device button. Main buttons offer following
functionality:
1. Load from device –loads configuration from device.
2. Save to device –saves configuration to device.
3. Load from file –loads configuration from file.
4. Update firmware –updates firmware on device.
5. Read records –reads records from the device.
6. Reboot device –restarts device.
7. Reset configuration –sets device configuration to
default.
Most important configurator section is GPRS –where all your
server and GPRS settings can be configured and Data Acquisition –
where data acquiring parameters can be configured.
More details about FMB641 configuration using Configurator can
be found in our Wiki.
Figure 9 Device connected via USB
Figure 8 Language selection
Figure 10 Configurator Status window
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Quick SMS configuration
Default configuration has optimal parameters present to ensure
best performance of track quality and data usage.
Quickly set up your device by sending this SMS command to it:
Note: Before SMS text, two space symbols should be inserted.
GPRS settings:
•
2001
–APN
•
2002
–APN username (if there
are no APN username, empty
field should be left)
•
2003
–APN password (if there
are no APN password, empty
field should be left)
Server settings:
•
2004
–Domain
•
2005
–Port
•
2006
–Data sending protocol
(0 –TCP, 1 –UDP)
Default configuration settings
Movement and ignition detection:
Vehicle movement will
be detected by
accelerometer
Ignition will be detected
by vehicle power voltage
between 13,2 –30 V
Device makes a record On Moving if one of these events happen:
300 seconds passes
Vehicle turns 10 degrees
Vehicle drives 100
meters
Speed difference
between last coordinate
and current position is
greater than 10 km/h
Device makes a record On Stop if:
1 hour passes while
vehicle is stationary
and ignition is off
Records sending to server:
If device has made a
record it is sent to the
server every 120
seconds
After successful SMS configuration, FMB641 device will synchronize
time and update records to configured server. Time intervals and
default I/O elements can be changed by using Teltonika
Configurator or SMS parameters.
" setparam
2001
:APN;
2002
:APN_username;
2003
:APN_password;
2004
:Domain;
2005
:Port;
2006
:0;"
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Mounting recommendations
•Connecting Wires
▬Wires should be connected while module is not plugged in.
▬Wires should be fastened to the other wires or non-moving
parts. Try to avoid heat emitting and moving objects near
the wires.
▬The connections should not be seen very clearly. If factory
isolation was removed while connecting wires, it should be
applied again.
▬If the wires are placed in the exterior or in places where they
can be damaged or exposed to heat, humidity, dirt, etc.,
additional isolation should be applied.
▬Wires cannot be connected to the board computers or
control units.
•Connecting power source
▬Be sure that after the car computer falls asleep, power is still
available on chosen wire. Depending on car, this may
happen in 5 to 30 minutes period.
▬When module is connected, be sure to measure voltage
again if it did not decrease.
▬It is recommended to connect to the main power cable in
the fuse box.
▬Use 3A, 125V external fuse.
•Connecting ignition wire
▬Be sure to check if it is a real ignition wire –power does not
disappear while starting the engine.
▬Check if this is not an ACC wire (when key is in the first
position, most electronics of the vehicle are available).
▬Check if power is still available when you turn off any of
vehicles devices.
▬Ignition is connected to the ignition relay output. As
alternative, any other relay, which has power output, when
ignition is on, may be chosen.
•Connecting ground wire
▬Ground wire is connected to the vehicle frame or metal
parts that are fixed to the frame.
▬If the wire is fixed with the bolt, the loop must be connected
to the end of the wire.
▬For better contact scrub paint from the place where loop is
connected.
PAY ATTENTION! Connecting the power supply must be
carried out in a very low impedance point of on-board vehicle
network. 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 FMB641 operation and even its failure.
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LED indications
Table 2 Navigation LED indications
Behaviour
Meaning
Permanently switched on
GNSS signal is not received
Blinking every second
Normal mode, GNSS is working
Off
GNSS is turned off because:
Device is not working or Device is in
sleep mode
Blinking fast constantly
Device firmware is being flashed
Table 3 Status LED indications
Behaviour
Meaning
Blinking every second
Normal mode
Blinking every two seconds
Sleep mode
Blinking fast for a short time
Modem activity
Off
Device is not working or Device is in
boot mode
Characteristics
Basic characteristics
Table 4 Basic characteristics
Module
Name
Teltonika TM2500
Technology
GSM ,GPRS, GNSS
GNSS
GNSS
GPS, GLONASS, GALILEO, BEIDOU, SBAS, QZSS,
DGPS
Receiver
33/99 acquisition channel
Tracking sensitivity
-165 dBM
Accuracy
< 3 m
Hot start
< 1 s
Warm start
< 25 s
Cold start
< 35 s
Cellular
Technology
GSM/GPRS
2G bands
Quad-band 850/900/1800/1900 MHz
Maximum output power
GSM 900: 24 ± 2 dBm
GSM 1800: 21 ± 2d dBm
Frequency range
GSM 900: 880 –915 MHz
GSM 1800: 1710 –1785 MHz
GPRS
GPRS Mobile Station Class B
Data transfer
GPRS Multi-Slot Class 12 (up to 240 kbps)
Data support
SMS (text/data)
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Power
Input voltage range
8 - 32 V DC with overvoltage (pulse 5a and 5b)
and reverse polarity protection
Back-up battery
550 mAh 8,4 V Ni-MH battery
Internal Fuse
3 A, 125 V
Power consumption
At 12 V < 8,9 mA (Deep Sleep)
At 12 V < 7 mA (Online Deep Sleep)
At 12 V < 60 mA (GPS Sleep)
At 12 V < 80 mA (GPRS)
At 12 V < 78 mA (nominal with no load)
At 12V < 250 mA (with full Load/Peak)
Interface
Digital Inputs
4
Digital Outputs
4
Analog Inputs
4
1-Wire temperature sensors
6
1-Wire iButton
1
RS232
2
RS485
1
CAN J1939
2
J1708
1
K-Line
1
LVCAN/ALLCAN
1
GNSS antenna
External High Gain
GSM antenna
External High Gain
USB
2.0 Mini-USB - device can be powered by USB
for easier device configuration
LED indication
2 status LED lights
SIM
2x SIM Card (Dual-SIM) or 1x eSIM
Memory
2 MB internal flash memory and external
Micro SD card up to 32GB
Switchable CAN terminators
Supported on CAN1 and CAN2 lines
Features
Sensors
Accelerometer
Scenarios
Green Driving, Over Speeding detection, Jamming
detection, Excessive Idling detection, Towing
detection, Crash detection, Immobilizer, iButton
Read Notification
Functionalities
Crash detection, Auto Geofence, Manual Geofence,
Trip Detection,Odometer, DDD download and
Tacho Online Data
Sleep modes
GPS Sleep, Online Deep Sleep, Deep Sleep
Configuration and
firmware update
FOTA Web, FOTA, Teltonika Configurator
SMS
Configuration, Events, DOUT Control, Debug
GPRS commands
Configuration, Debug, DOUT Control
Time Synchronization
GPS, NITZ, NTP
Fuel monitoring
LLS (Analog), LV-CAN, ALL-CAN, CAN FMS,
RS232/RS485 Fuel Sensor, Ultrasonic level sensor
Ignition detection
Digital Input , Accelerometer, External Power
Voltage
Physical specification
Dimensions
104,1 x 76,8 x 31,5 mm (L x W x H)
Weight
197 g
Operating environment
Operating temperature
(without battery)
-40 °C to +85 °C
Storage temperature
(without battery)
-40 °C to +85 °C
Operating humidity
5% to 95% non-condensing
Ingress Protection Rating
IP41
Battery Storage
Temperature
-20 +45 °C
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Electrical characteristics
Table 5 Electrical characteristics
Characteristic description
Value
Min.
Typ.
Max.
Unit
Supply Voltage
Supply Voltage (Recommended Operating
Conditions)
+8
+32
V
Digital output (Open drain grade)
Drain current (Digital Output OFF)
120
µA
Drain current (Digital Output ON,
Recommended Operating Conditions)
0.5
A
Static Drain-Source resistance (Digital Output
ON)
400
300
mΩ
Digital Input
Input resistance (DIN1)
15
kΩ
Input resistance (DIN2)
15
kΩ
Input resistance (DIN3)
15
kΩ
Input resistance (DIN4)
15
kΩ
Input voltage (Recommended Operating
Conditions)
0
Supply
voltage
V
Input Voltage threshold (DIN1)
7.5
V
Input Voltage threshold (DIN2, DIN3, DIN4)
7.5
V
Analog input
Input Voltage (Recommended Operating
Conditions), Range 1
0
+10
V
Input resistance
120
kΩ
Input Voltage (Recommended Operating
Conditions), Range 2
0
+30
V
Input resistance
147
kΩ
1-WIRE
Supply voltage
+3.3
+3.9
V
Output inner resistance
7
Ω
Output current (UOUT> 3.0 V)
30
mA
Short circuit current (UOUT> 0 V)
75
mA
CAN interface
Switchable CAN terminator resistors
120
Ω
Differential input resistance
19
30
52
kΩ
Recessive output voltage
2
2.5
3
V
Differential output voltage
0.5
0.7
0.9
V
Common mode input voltage
-30
30
V
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Safety information
This message contains information on how to operate FMB641
safely. By following these requirements and recommendations,
you will avoid dangerous situations. You must read these
instructions carefully and follow them strictly before operating the
device!
•The device uses SELV limited power source. The nominal
voltage is +12 V DC. The allowed voltage range is +8..+32 V DC.
•To avoid mechanical damage, it is advised to transport the
device in an impact-proof package. Before usage, the device
should be placed so that its LED indicators are visible. They
show the status of device operation.
•When connecting the 2x10 connector 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
connector must be disconnected.
•The device is designed to be mounted in a zone of limited
access, which is inaccessible to the operator. All related devices
must meet the requirements of EN 62368-1 standard.
•The device FMB641 is not designed as a navigational device for
boats.
Do not disassemble the device. If the device is
damaged, the power supply cables are not
isolated
or
the isolation is damaged, DO NOT touch the device
before unplugging the power supply.
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 a predefined
location.
The programming must be performed using a PC
with autonomic power supply.
Installation and/or handling during a lightning storm
is prohibited.
The device is susceptible to water and humidity.
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Certification and Approvals
•FMB641 CE / RED
•FMB641 E-Mark
•FMB641 EAC
This sign on the package means that it is
necessary to read the User‘s Manual before
your start using the device. Full User‘s Manual
version can be found in our Wiki.
This sign on the package means that all used
electronic and electric equipment should not be
mixed with general household waste.
Hereby, Teltonika declare under our sole
responsibility that the above described product
is in conformity with the relevant Community
harmonization: European Directive 2014/53/EU
(RED).
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Warranty
TELTONIKA guarantees its products to be free of any
manufacturing defects for a period of 24 months. With additional
agreement we can agree on a different warranty period, for more
detailed information please contact our sales manager.
Contact us teltonika-iot-group.com/about-us/contacts/
All batteries carry a reduced 6 month warranty period.
If a product should fail within this specific warranty time, the
product can be:
•Repaired
•Replaced with a new product
•Replaced with an equivalent repaired product fulfilling the same
functionality
•TELTONIKA can also repair products that are out of warranty at
an agreed cost.
Warranty Disclaimer
TELTONIKA PRODUCTS ARE INTENDED TO BE USED BY PERSONS
WITH TRAINING AND EXPERIENCE. ANY OTHER USE RENDERS THE
LIMITED WARRANTIES EXPRESSED HEREIN AND ALL IMPLIED
WARRANTIES NULL AND VOID AND SAME ARE HEREBY EXCLUDED.
ALSO EXCLUDED FROM THIS LIMITED WARRANTY ARE ANY AND
ALL INCIDENTAL OR CONSEQUENTIAL DAMAGES INCLUDING BUT
NOT LIMITED TO, LOSS OF USE OR REVENUE, LOSS OF TIME,
INCONVENIENCE OR ANY OTHER ECONOMIC LOSS.
More information can be found at teltonika-iot-
group.com/warranty-repair/
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