CONNECTIVITY: 4G/LTE
(Cat 1), 3G, 2G DURABILITY: Rugged
aluminium housing SERIAL
PORTS: Equipped with RS485 for serial communication 9-30V: Wide
range of supported power supply voltages COMPACTNESS: Small
size, easy installation RMS: Compatible
with Teltonika Remote Management MOBILE |
|
Mobile module |
4G (LTE) –
Cat 1 up to 10 Mbps, 3G – Up to 42 Mbps, 2G – Up to 236.8 kbps |
Status |
Signal
strength (RSSI), SINR, RSRP, RSRQ, EC/IO, RSCP Bytes sent/received, connected
band, IMSI, ICCID. |
SMS/Call |
SMS status,
SMS configuration, send/read SMS via HTTP POST/GET, EMAIL to SMS, SMS to
EMAIL, SMS to HTTP, SMS to SMS, scheduled SMS, SMS autoreply, Call utilities |
USSD |
Supports
sending and reading Unstructured Supplementary Service Data messages |
Black/White
list |
Operator
black/white list |
Band
management |
Band lock,
Used band status display |
APN |
Auto APN |
Bridge |
Direct
connection (bridge) between mobile ISP and device on LAN |
Passthrough |
Gateway
assigns its mobile WAN IP address to another device on LAN |
Multiple PDN |
Possibility
to use different PDNs for multiple network access and services (optional) |
NETWORK |
|
Routing |
Static
routing |
Network
protocols |
TCP, UDP,
IPv4, IPv6, ICMP, NTP, DNS, HTTP, HTTPS, SMTP, SSL v3, TLS, PPP, SSH, DHCP,
SNMP, MQTT |
Connection
monitoring |
Ping Reboot,
Wget Reboot, Periodic Reboot, LCP and ICMP for link inspection |
Firewall |
Port
forwards, traffic rules, custom rules |
DHCP |
Static and
dynamic IP allocation |
QoS / Smart
Queue Management (SQM) (planned) |
Traffic
priority queuing by source/destination, service, protocol or port |
Supported
>25 service providers, others can be configured manually |
|
SSHFS |
Possibility
to mount remote file system via SSH protocol |
SECURITY |
|
Authentication |
Pre-shared
key, digital certificates, X.509 certificates |
Firewall |
Pre-configured
firewall rules can be enabled via the WebUI, unlimited firewall configuration
via CLI; NAT; NAT-T |
Attack
prevention |
DDOS
prevention (SYN flood protection, SSH attack prevention, HTTP/HTTPS attack
prevention), port scan prevention ( SYN-FIN, SYN-RST, X-mas, NULL flags, FIN
scan attacks) |
Mobile quota
control |
Set up custom
data limits for SIM card |
WEB filter |
Blacklist for
blocking out unwanted websites, Whitelist for specifying allowed sites only |
Access
control |
Flexible
access control of TCP, UDP, ICMP packets, MAC address filter |
VPN |
|
OpenVPN |
Multiple
clients and a server can run simultaneously, 12 encryption methods |
OpenVPN
Encryption |
DES-CBC,
RC2-CBC, DES-EDE-CBC, DES-EDE3-CBC, DESX-CBC, BF-CBC, RC2-40-CBC, CAST5-CBC,
RC2-64-CBC, AES-128-CBC, AES-192-CBC, AES-256-CBC |
IPsec |
IKEv1, IKEv2,
supports up to 5 x VPN IPsec tunnels (instances), with 5 encryption methods
(DES, 3DES, AES128, AES192, AES256) |
GRE |
GRE tunnel |
PPTP, L2TP |
Client/Server
services can run simultaneously, L2TPv3 support |
ZeroTier |
ZeroTier VPN |
WireGuard |
WireGuard VPN
client and server support |
SERIAL
COMMUNICATION MODES |
|
Modes |
Console,
OverIP, Modem (Full or Partial control), MODBUS RTU master, MODBUS gateway,
NTRIP client (planned) |
MODBUS |
|
MODBUS TCP
SLAVE |
|
ID filtering |
Respond to
one ID in range [1;255] or any |
Allow remote
access |
Allow access
through WAN |
Custom
registers |
MODBUS TCP
custom register block, which allows to read/write to a file inside the
router, and can be used to extend MODBUS TCP slave functionality |
MODBUS TCP
MASTER |
|
Supported
functions |
01, 02, 03,
04, 05, 06, 15, 16 |
Supported
data formats |
8 bit: INT, UINT;
16 bit: INT, UINT (MSB or LSB first); 32 bit: float, INT, UINT (ABCD
(big-endian), DCBA (little-endian), CDAB, BADC), HEX, ASCII |
MODBUS RTU
MASTER |
|
Supported
baud rates |
From 300 to
115200 |
Supported
functions |
01, 02, 03,
04, 05, 06, 15, 16 |
Supported
data formats |
8 bit: INT,
UINT; 16 bit: INT, UINT (MSB or LSB first); 32 bit: float, INT, UINT (ABCD
(big-endian), DCBA (little-endian), CDAB, BADC), HEX, ASCII |
Number of
data bits |
From 5 to 8 |
Number of
stop bits |
1 or 2 |
Parity |
None, Even,
Odd |
Flow control |
None,
Xon/Xoff |
MQTT GATEWAY |
|
Gateway |
Allows
sending commands and receiving data from MODBUS Master through the MQTT
broker |
DNP3 |
|
Supported
modes |
TCP Master,
DNP3 Outstation, RTU Master |
DATA TO
SERVER |
|
Protocols |
HTTP(S),
MQTT, Azure MQTT, Kinesis |
MONITORING
& MANAGEMENT |
|
WEB UI |
HTTP/HTTPS,
status, configuration, FW update, CLI, troubleshoot, system log, kernel log |
FOTA |
Firmware
update from sever, automatic notification |
SSH |
SSH (v1, v2) |
SMS |
SMS status,
SMS configuration, send/read SMS via HTTP POST/GET |
Call |
Reboot,
Status, Mobile data on/off, Output on/off, answer/hang-up with a timer |
TR-069 |
OpenACS,
EasyCwmp, ACSLite, tGem, LibreACS, GenieACS, FreeACS, LibCWMP, Friendly tech,
AVSystem |
MQTT |
MQTT Broker,
MQTT publisher |
JSON-RPC |
Management
API over HTTP/HTTPS |
MODBUS |
MODBUS TCP
status/control |
RMS |
Teltonika
Remote Management System (RMS) |
IoT PLATFORMS |
|
Cloud of
Things |
Allows
monitoring of: Device data, Mobile data, Network info, Availability |
ThingWorx |
Allows
monitoring of: WAN Type, WAN IP Mobile Operator Name, Mobile Signal Strength,
Mobile Network Type |
Cumulocity |
Allows
monitoring of: Device Model, Revision and Serial Number, Mobile Cell ID,
ICCID, IMEI, Connection Type, Operator, Signal Strength, WAN Type and IP |
Azure IoT Hub |
Can send
device IP, Number of bytes send/received/ 3G connection state, Network link
state, IMEI, ICCID, Model, Manufacturer, Serial, Revision, IMSI, Sim State,
PIN state, GSM signal, WCDMA RSCP WCDMA EC/IO, LTE RSRP, LTE SINR, LTE RSRQ,
CELL ID, Operator, Operator number, Connection type, Temperature, PIN count
to Azure IoT Hub server |
SYSTEM
CHARACTERISTICS |
|
CPU |
ARM Cortex-A7
1.2 GHz CPU |
RAM |
128 MB (50 MB
available for userspace) |
FLASH storage |
512 MB (200
MB available for userspace) |
FIRMWARE /
CONFIGURATION |
|
WEB UI |
Update FW
from file, check FW on server, configuration profiles, configuration backup |
FOTA |
Update
FW/configuration from server |
RMS |
Update
FW/configuration for multiple devices |
Keep settings |
Update FW
without losing current configuration |
FIRMWARE
CUSTOMIZATION |
|
Operating
system |
RutOS
(OpenWrt based Linux OS) |
Supported
languages |
Busybox
shell, Lua, C, C++ |
Development
tools |
SDK package
with build environment provided |
INPUT/OUTPUT |
|
Configurable
I/O |
2 x
Configurable Inputs/Outputs. Digital input 0 - 5 V detected as logic low, 8 -
30 V detected as logic high. Open collector output, max output 30 V, 300 mA
(not available in TRB145*2****) |
Output
control |
HTTP
POST/GET, Schedule |
Events |
SMS, EMAIL |
I/O juggler |
Allows to set
certain I/O conditions to initiate event |
POWER |
|
Connector |
4 pin
industrial DC power socket |
Input voltage
range |
9 – 30 VDC (4
pin industrial socket), reverse polarity protection, surge protection >33
VDC 10us max |
Power
consumption |
< 5 W |
PHYSICAL
INTERFACES (PORTS, LEDS, ANNTENAS, BUTTONS, SIM) |
|
RS485 |
1 x 6 pin
terminal block for 2-wire or 4 wire interface |
I/Os |
2 x
Configurable I/O pins on 4 pin power connector (I/O not available in
TRB145*2****) |
USB |
1 x Virtual
network interface via micro USB |
Status LEDs |
3 x
connection type status LEDs, 5 x connection strength LEDs, 1x Power LED |
SIM |
1 x SIM slot
(Mini SIM – 2FF), 1.8 V/3 V |
Power |
4 pin power
connector with 2 x configurable Digital Inputs/Outputs (I/O not available in
TRB145*2****) |
Anntena |
1 x SMA for
LTE |
Reset |
Reboot/User
default reset/Factory reset button |
PHYSICAL
SPECIFICATIONS |
|
Casing
material |
Aluminum
housing |
Dimensions (W
x H x D) |
74.5 x 25 x
64.4 mm |
Weight |
130 g |
Mounting
options |
Bottom and
sideways DIN rail, Flat surface |
OPERATING
ENVIRONMENT |
|
Operating
temperature |
-40 °C to 75
°C |
Operating
humidity |
10 % to 90 %
non-condensing |
Ingress
Protection Rating |
IP30 |
REGULATORY
& TYPE APPROVALS |
|
Regulatory |
CE/RED, EAC,
RoHS, WEEE |
EMI |
|
Standards |
Draft ETSI EN
301 489-1 V2.2.0, Draft EN 301 489-19 V2.1.0, Draft ETSI EN 301 489-52 V1.1.0 |
ESD |
EN
61000-4-2:2009 |
RS |
EN
61000-4-3:2006 + A1:2008 + A2:2010 |
EFT |
EN
61000-4-4:2012 |
Surge
protection |
EN
61000-4-5:2014 |
CS |
EN
61000-4-6:2014 |
DIP |
EN
61000-4-11:2004 |
RF |
|
Standards |
EN 300 511
V12.5.1, ETSI EN 301 908-1 V11.1.1, ETSI EN 301 908-2 V11.1.2, ETSI EN 301
908-13 V11.1.2 |
SAFETY |
|
Standards |
IEC
62368-1:2014(Second Edition), EN 62368-1:2014+A11:2017 |
USE CASE
1) CONNECTING
A SECURE BIKE STORAGE BOX
Getting around
with your bicycle is great on many levels. No traffic to slow you down, it’s
good for the environment, and you even get exercise done. The downside is that
stealing a bike or its parts is much easier than stealing a car, and the world
never seems to run out of thieves. Unless you have a safe place to store your
bike whenever you arrive at your destination, a chain lock is your best option.
But best doesn’t always mean good, and you’re still allowing the universe to
roll the dice on whether your bike will still be there when you come back. Is
this a problem IoT can solve?
2) WIRELESS
PARKING AVAILABILITY DATA TRANSMISSION
2019 research
performed in the United States found that only 5% of workers used public
transport for their daily trips and the rest were using personal vehicles. Due
to the high volume of cars on the streets, up to 30% of traffic is composed of
daily commuters. They are left wandering about, trying to find a free parking
spot. People looking for available parking also pollute the environment with
car exhaust fumes. So, is there a way to address this issue and reduce adverse
effects?
3) REMOTE
CONTROL AND MONITORING OF WIND TURBINES
According to a
recent study by Rebecca Lindsey and LuAnn Dahlman the world average temperature
increased by 2°C in almost 150 years, which can cause a catastrophic outcome in
the future. As the world is moving forwards by increasing the pace of
infrastructure development and consumption, the impact on the environment
increases dramatically. Despite this fact, people are trying to fight the
environmental crisis is different ways; some are looking for more efficiency in
consumption, some are turning towards the green energy generated from sun,
water, or wind.
4) REMOTE
MONITORING OF OIL & GAS PIPELINES
Our lives depend on energy and while many countries are working towards more sustainable future with development focused on renewable energy sources, oil & gas remain the most popular sources of energy today. Combined, oil & gas account to more than 60% of the global energy consumption, according to BP estimates.
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