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This networking solution enables remote monitoring and management in lift stations across the U.S. via FirstNet. Click here to read more. CELLULAR ROUTER FOR FIRSTNET LIFT STATION REMOTE MONITORING Highlights ✔ LEC is a U.S.-based automation and integration specialist dedicated to providing its clients with industrial automation, control engineering, and industrial IoT enablement and cloud platform services of the highest quality. ✔ Its iQ2 remote management tool provides IoT remote monitoring and management capabilities to lift stations across the U.S. by transmitting critical data through the FirstNet cellular network to the iQ2 platform, allowing for quick response to alarms. ✔ This data transmission requires a reliable, FirstNet-certified 4G LTE router – the RUT956. This cellular router checks all the boxes by providing this solution with seamless, uninterrupted connectivity, interface versatility, and support of a wide range of industrial protocols. The challenge – the last responders of lift stations Across the United States are over 2 million sewer lift stations transporting wastewater from a lower level to a higher one, enabling continuous water flow with the help of good, old-fashioned gravity. To achieve this, sewer lift stations utilise a combination of float switches, lift station pumps, and a wet well where the wastewater is collected. An above-ground control panel is then installed for on-site management of the station. These lift stations are incredibly important infrastructure, particularly in the event of a natural disaster, such as a hurricane or a flash flood. In spite of this, the monitoring practices of these stations often range from subpar to outright outdated. Common examples include a flashing red light or an audible alarm that must be detected and reported by on-site personnel or a routine drive-by before any further action can be taken. This means that, in practice, these alarm signals can and do go unnoticed for some time. Given the importance of lift stations functioning properly at all times, a lack of 24/7 monitoring is a disaster waiting to happen. This is where FirstNet enters the picture. FirstNet is a U.S. authority meant to establish, operate, and maintain an interoperable public safety broadband network. In other words – to provide and ensure connectivity for first responders, disaster response, and emergencies. To connect sewer lift stations across the U.S. to the FirstNet cellular network and enable IoT remote monitoring and management capabilities in line with Industry 4.0 standards, our partners at LEC created the iQ2 lift station remote management tool. Their solution required a reliable, FirstNet-certified cellular router to ensure uninterrupted connectivity to the FirstNet network. Teltonika Networks had the perfect device for the job: the RUT956 4G LTE router. Topology The solution – lifting your station to FirstNet The Teltonika Networks RUT956 cellular router is a reliable and versatile networking device that makes the iQ2 remote management tool tick with seamless uninterrupted connectivity. This 4G router is connected to the iQ2 control panel via Ethernet. The control panel is connected to the different parts within the wet well, such as the float-level switches and lift station pumps, and receives signals like float and motor status from them. These signals are then transmitted through the RUT956 via the Modbus TCP protocol and are held in an internal LEC database. At user-defined intervals, the data collected via Modbus TCP is transmitted through the FirstNet cellular network to LEC’s iQ2 platform using the MQTT protocol – the golden standard for IoT remote monitoring. The user can then view the data and control all lift station operations remotely, with a push of a button, from anywhere in the world. If an alarm does go off for any reason, it will be detected and responded to quickly, ensuring the lift station functions properly at all times. A number of key features make the RUT956 an excellent choice for this solution. Its interface versatility and support of a wide range of industrial protocols, including the MQTT protocol and Modbus TCP, make it easy to slot the 4G router into iQ2 control panels while also future-proofing the solution for potential upgrades at a later point. This cellular router not only provides seamless connectivity, but ensures an uninterrupted connection thanks to having dual SIM slots, auto-failover, backup WAN, and other switching scenarios. This level of connection safeguarding is exactly what a networking solution connected to the FirstNet network needs. In addition, the RUT956 is easy to integrate into an IoT remote monitoring solution. It features GNSS capabilities for effective device tracking and is compatible with the Remote Management System (RMS) of Teltonika Networks, meaning that integration with LEC’s iQ2 platform is simple by design. Lastly, this cellular router was engineered for adverse industrial environments. Protected by sturdy aluminium housing and capable of withstanding vibrations and extreme temperatures from -40 °C to 75 °C, the RUT956 will perform in just about any environment a sewer lift station can be installed in. If you’re in the market for a FirstNet-certified cellular router for your lift station solution, the RUT956 of Teltonika Networks is your IoT dream come true. LIKE THIS STORY? Share it with friends! Facebook X (Twitter) LinkedIn Copy link GOT A QUESTION? We’re here to help! CONTACT US Add a Title Energy & utilities FEATURED PRODUCT Heading 5 Description Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. 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Smart grids offer efficient monitoring and management of energy grid operations. Find out the best networking device for enabling them. INDUSTRIAL IOT GATEWAY FOR SMART GRID COMMUNICATION Highlights ✔ Smart grids offer efficient monitoring and management of energy grid operations. To achieve this, energy grid modernisation requires a reliable networking device capable of keeping the network simple by supporting different interfaces and protocols used by legacy equipment. ✔ The perfect device for this job is the TRB142 cellular gateway by Teltonika Networks. This IoT gateway comes with the widely-used RS232 serial interface and supports a host of critical industrial protocols, including Modbus RTU, MQTT, DHCP, SNMP, and DNP3. ✔ In addition, this compact and affordable IoT gateway supports 4G, 3G, and 2G technologies, is compatible with RMS for enhanced remote access and management capabilities, and ensures easy deployment, installation, and scalability. The challenge – entropy in smart grids At its core, energy infrastructure revolves around production and transmission. Energy is generated and then transmitted to energy grids via high, medium, and low-voltage stations and substations. From there, energy grids reach homes and businesses around the world, allowing you to read these very words. This is a complex, multistep process, so ensuring the health of this infrastructure and the efficiency of each step is of vital importance. Doing so requires continuous monitoring and control of the system, which in turn requires all its moving parts to be connected to an IoT network. In practice, this isn’t always the case. Station networks are managed by engineers and advanced supervisory control and data acquisition (SCADA) systems, while the substation networks are managed by the substation controller. In other words – division instead of cohesion. To enable smart grid technology, which is to say – a cohesive energy grid constituting a single IoT network, each substation network must be connected to the greater, station network. This means the grid network grows in volume, its scale of automation increases – and a smart grid is born. But alas, the 2 nd law of thermodynamics states that in an isolated system, entropy can only increase. In the realm of IoT-powered smart grids, this entropy manifests in the inevitable downtime of the system. The larger the network, the more this entropic downtime negatively impacts its overall performance and reliability. Downtime cannot be entirely avoided, but it can definitely be minimized. The problem is that substations employ different legacy equipment. An optimised network should simplify communication to these legacy equipment and maintain as stable and seamless a connection as possible. Topology The solution – smart grid IoT gateway Many keyholes require many keys, but a single keyring is all it takes to stay efficient. In this case, the keyring is the TRB142 cellular gateway by Teltonika Networks. Taking the example of an electric power grid, this industrial gateway can connect to the substation controller via a supported protocol such as Modbus RTU and to the SCADA control centre via a wireless connection. The TRB142 comes with the widely-used RS232 serial interface and supports a host of critical industrial protocols, including the aforementioned Modbus RTU (Server), as well as MQTT, DHCP, SNMP, and DNP3. This comprehensive protocol support reduces the complexity of smart grid infrastructure and enhances the smart grid network by reducing the need for additional cabling and auxiliary devices and adapters. In terms of connectivity, this affordable industrial IoT gateway features LTE Cat 1, the ideal 4G category for serial interface communication where low data speeds are more than sufficient. If need be, the TRB142 also supports 3G and 2G technologies. The nature of smart grids demands environmental resilience from all hardware, and the TRB142 doesn’t disappoint on that front either. This IoT gateway is housed in an aluminium casing and can withstand harsh industrial environments. In addition, the device measures only 74.5 x 25 x 64.4 mm and can be installed on a DIN rail both bottom and sideways, making installation easy and scalability simple. Last but far from least, this IoT gateway is compatible with the Remote Management System (RMS) of Teltonika Networks. RMS enables seamless remote access and management capabilities, including a fully custom alerts and automation schemes. The TRB142 is the perfect networking device for smart grid communication. Don’t let your grid stay in an inefficient past; deploy this IoT gateway and get your IoT energy grid modernisation started. LIKE THIS STORY? Share it with friends! Facebook X (Twitter) LinkedIn Copy link GOT A QUESTION? We’re here to help! CONTACT US Add a Title Energy & utilities FEATURED PRODUCT Heading 5 Description Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Name Add a Title Start Now Add a Title Start Now Add a Title Related products View more View less Related accessories View more View less

Power up your IoT solution systems with Teltonika Networks' 62.4 W UK 2-pin power supply. Explore more now. UK POWER SUPPLY, 62.4 W Order code: DOWNLOAD DATASHEET features downloads ordering support features downloads ordering support Title Spec title Spec text Spec title Spec text Title Spec title Spec text Spec title Spec text All Features Less features Compatible products Less products More products compatible ACCESSORIES Less products More products

Learn how Teltonika’s RUTM09 4G router with Dual SIM, Ethernet ports, and Remote Management capabilities ensures reliable aquaculture connectivity for sustainable lice control. The RUTM09 4G router for sustainable aquaculture connectivity Highlights ✔ Sea lice infestations cost fish farmers more than $1 billion every year, highlighting the urgent need for effective, sustainable, and non-disruptive approach to lice control. ✔ Stingray Marine Solutions AS pioneered a system that uses machine vision and laser technology to monitor fish welfare and eliminate lice continuously inside pens. ✔ Teltonika’s RUTM09 4G router secures reliable 24/7 connectivity, while the Remote Management System (RMS) enables remote monitoring, configuration, and troubleshooting, reducing site visits and enabling global scalability. The challenge – ensuring real-time insights & remote management Aquaculture is one of the world’s fastest-growing food production sectors, supplying more than half of all fish consumed globally. But despite its rapid growth, the industry faces a costly and persistent obstacle: sea lice. These parasites weaken fish, reduce yields, and are responsible for massive financial losses across the sector. It is estimated that fish farmers spend more than $1 billion every year on sea lice treatments alone – without even accounting for the additional losses caused by reduced growth, higher mortality rates, and stricter environmental regulations. For fish farmers, this creates an urgent need for effective, sustainable, and non-disruptive lice control solutions. Traditional methods, such as chemical baths, thermal or freshwater treatments, and mechanical removal, are expensive, labour-intensive, and often come with negative impacts on fish welfare and the surrounding environment. Stingray Marine Solutions AS , a Norwegian company pioneering innovative technologies for aquaculture, aimed to break this cycle by introducing a continuous, precise, and environmentally friendly approach. Combining machine vision with advanced laser technology, their system continuously scans fish in pens, monitors well-being, and eliminates lice, offering a sustainable alternative to traditional methods. Only with uninterrupted access to real-time data and remote operations could fish farmers and analysts effectively monitor stocks, respond swiftly, and reduce the staggering economic burden caused by lice. So, to make such an innovation possible, reliable connectivity was essential. Topology The solution – 4G router made for continuous connectivity Delivering continuous, precise, and environmentally friendly lice control required a system built around three interconnected elements: the Node Cabinet, providing Internet to the whole system, the Submerged Unit for scanning and laser treatment, and the Buoyant Unit that positions the Submerged Unit within the pen. At the edge of the pen, the Node Cabinet houses Teltonika’s RUTM09 4G router – the central hub that provides connectivity with speeds of up to 300Mbps, keeps all components connected via Ethernet, and forwards all collected data to servers through its LTE uplink. The compact size of only 115 × 44.2 × 95.1 mm and compatibility with our partner’s DIN rail mounting system allows it to fit perfectly inside the cabinet, ensuring easy installation and seamless integration. The router uses its Ethernet ports for two critical connections: one port links to a computer that controls power to the node and collects sensor data, and another Ethernet port supplies internet access to the units in the pen, ensuring smooth coordination between all components. Moreover, dual SIM capability adds resilience by allowing the router to automatically switch to the second SIM card if the primary connection is lost. Built-in failover functionality ensures uninterrupted connectivity by automatically switching between mobile and wired connections when needed, keeping operations online even in challenging marine conditions. On top of that, the RUTM09 4G router forwards all collected images, video snapshots, and sensor data from the Submerged Unit to the company’s servers. It allows Stingray’s clients access to the timely insights via the Stingray portal, while our partner’s engineers receive constant flow of up-to-date information for continuous evaluation. The Buoyant Unit, which positions and adjusts the Submerged Unit with its winch and power cable, is linked to the system through the Node Cabinet. Precise movement and uninterrupted performance are ensured by maintaining a steady connection between surface equipment and the submerged hardware via the router. Beyond its hardware strengths, the RUTM09 4G LTE router also provides important software advantages. API support simplifies setup and enables smooth integration into Stingray’s existing infrastructure, while Teltonika’s Remote Management System (RMS) makes it possible to configure, monitor, and troubleshoot the solution remotely. This reduces the need for site visits and supports global scalability. As our partner explained, Teltonika’s RUTM09 was the best choice for their needs thanks to its compact size, dual SIM, remote operation capabilities, and ease of mounting. The 4G router gave them the ability to optimise their production process and simplify management through both RMS and the router’s API. So, if you're looking for a compact 4G router developed for undisrupted connection – look no further. Contact us today to request your sample! LIKE THIS STORY? Share it with friends! Facebook X (Twitter) LinkedIn Copy link GOT A QUESTION? We’re here to help! CONTACT US Add a Title Industrial & automation FEATURED PRODUCT Heading 5 Description Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Name Add a Title Start Now Add a Title Start Now Add a Title Related products View more View less Related accessories View more View less

Teltonika’s TRB256 IoT gateway is a perfect choice for reducing water consumption. Click here to learn more. Industrial IoT Gateway for Reduced Water Consumption Highlights ✔ Lumo Robotics is a Brazilian company specialising in semi-autonomous cleaning robots for solar power plants. Its semi-autonomous robot, Lumobot V1 , is designed to improve energy efficiency, reduce water consumption, and enhance operational management, contributing to sustainable energy solutions. ✔ A reliable connectivity device capable of withstanding the challenging conditions of solar plant environments was essential to ensure transmission of telemetry data from the Lumobot V1 to the Lumo Robotics cloud platform. ✔ Enter the TRB256 IoT gateway – 4G LTE connectivity device with dual SIM, compatible with Teltonika’s Remote Management System (RMS). The Challenge – consuming less water In 2024, global water consumption reached approximately 4.3 trillion cubic meters , marking a significant increase from the 2.9 trillion cubic meters consumed by the beginning of 2023. Rising global water consumption intensifies water scarcity , with over 3 billion people already living in water-stressed regions. Recognising this challenge, our Brazilian partner, Lumo Robotics, have developed the Lumobot V1, a semi-autonomous robot designed to clean solar panels efficiently while conserving water. To ensure reliable delivery of telemetry data from the Lumobot V1 to the Lumo Robotics cloud platform, a reliable connectivity device was needed – one capable of maintaining stable performance in remote desert locations with limited cell towers and extreme temperature fluctuations, ranging from scorching daytime heat to freezing cold at night. Topology The Solution – IoT gateway & remote management The Lumobot V1 model reduces water consumption, time, and labour by up to 80% compared to manual cleaning. With its own software and the Lumo Robotics cloud platform, end users can manage and monitor productivity in a centralised and practical way. But even the most advanced cleaning robot needs reliable connectivity to perform at its best. That’s where Teltonika’s TRB256 IoT gateway comes in – the perfect choice to tackle connectivity challenges and ensure seamless operation. This 4G LTE gateway has dual SIM functionality and supports NB-IoT and CAT-M1 technologies. The dual SIM feature guarantees uninterrupted connectivity with automatic failover , seamlessly switching between operators to ensure continuous telemetry data transmission, even in areas with limited coverage. In addition, the NB-IoT and CAT-M1 technologies are ideal for remote environments, providing great coverage and energy efficiency. On top of that, our 4G LTE gateway’s sturdy, aluminium housing can withstand operating temperatures from -40 °C to 75 °C, making it great choice for harsh condition establishments, such as solar plants. Moreover, the TRB256 4G LTE gateway is seamlessly connected to a LoraWAN gateway via the RJ45 port, facilitating long-range, low-power communication. At the same time, our IoT gateway is connected to the ESP32-S3 microcontroller via an RS232 connection and transmits telemetry data to the Lumo Robotics cloud platform using the MQTT protocol. This IoT solution also relies on Teltonika’s Remote Management System (RMS). Using this remote monitoring tool, Lumo Robotics was able to remotely manage equipment status and cellular data usage, significantly reducing costs. A myriad of VPN services, including OpenVPN, IPsec, ZeroTier , Stunnel, and many more make our IoT gateway especially secure. As our partner stated, "Reliable visualisation of water and energy consumption data is essential to the Lumo Robotics business model. The Teltonika TRB256 IoT gateway met these expectations, transmitting telemetry data from the Lumobot V1 reliably, even in demanding environments." So, don’t wait too long – get in touch with us and see how our connectivity devices could benefit your IoT solutions! LIKE THIS STORY? Share it with friends! Facebook X (Twitter) LinkedIn Copy link GOT A QUESTION? We’re here to help! CONTACT US Add a Title Energy & utilities FEATURED PRODUCT Heading 5 Description Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Name Add a Title Start Now Add a Title Start Now Add a Title Related products View more View less Related accessories View more View less

Critical infrastructure can be inspected from above – as long as you have the right cellular router. Learn more in this use case. Cellular Router for Aerial Critical Infrastructure Inspection Highlights ✔ Aispeco is a manufacturer of advanced geospatial data collection platforms, capable of aerial deployment via multi-sensor payload mounting on aeroplanes and helicopters. ✔ For its payload, Aispeco needed a reliable, dual SIM card router to connect its sensors and other equipment to both an on-board computer and a remote server. ✔ Accomplishing this task seamlessly is the RUTX11 cellular router, enabling robust and reliable Cat 6 connectivity with four gigabit Ethernet ports, OpenVPN, and easy remote management capabilities. The challenge – a better view from above Enabling the effective operations of today’s interconnected world is critical infrastructure. Power grids, pipelines, smart cities, and the list goes on and on. The importance of this infrastructure calls for its effective and efficient inspection and predictive maintenance. Otherwise, its safety and uninterrupted operation is at risk. The field of critical infrastructure inspection can be more complex than the infrastructure itself. Different types of infrastructures require a different set of sensors and methodologies, and the large area they cover means inspecting the whole infrastructure is not only complicated but costly and time-consuming as well. But what if you can inspect it from above? This idea was brought to light by the bright minds at Aispeco. Their system combines key inspection equipment, including high-resolution optical cameras, hyperspectral imaging, and LiDAR sensors from top brands such as RIEGL, Teledyne-Optech, Phase One, Sony, Jenoptik, FLIR, and others. This payload is then mounted to compatible aeroplanes and helicopters, including ones from industry pillars like Airbus, Agusta, Bell, MD, Robinson, Sikorsky, and more. This mobile mapping system can quickly and effectively inspect a myriad of different infrastructures spread from one horizon to the next – from above. It also allows for data-collection and device configuration customisability, with the option of adding and removing sensors without needing to replace the entire system. However, all this gathered data needs to go somewhere to be stored and analysed. To achieve that, Aispeco’s system requires connectivity. Enter: the RUTX11 cellular router. Topology The solution – a flying cellular router Installed as part of Aispeco’s mounted payload, the RUTX11 industrial cellular router by Teltonika Networks is connected via its four gigabit Ethernet ports to the rest of the equipment in the payload, such as the LiDAR sensors. This 4G router then enables wireless communication between the mounted payload and on-board computer, such as a laptop, for direct and real-time access to the system. The device also provides an internal IP address to the equipment and computer. The connectivity enabled by the RUTX11 is LTE Cat 6, capable of speeds of up to 300Mbps with carrier aggregation. As this is a dual SIM card router, the connection is safeguarded by auto-failover, backup WAN and other switching scenarios for seamless, uninterrupted operation. In addition to wirelessly connecting to the computer, this cellular router is also wirelessly connected to Aispeco’s server for remote monitoring and maintenance of the system, continuous tracking of its location, and providing real-time customer support. The connection to the server is secured by OpenVPN provided by the RUTX11. Bolstering the remote capabilities of this networking solution is Aispeco’s use of our Remote Management System (RMS), enabling it to easily manage and control both the cellular router and end devices – even while in the air. Importantly, this cellular router is housed in sturdy aluminium housing capable of withstanding extreme temperatures ranging from -40 °C to 75 °C. This ensures that the cold air synonymous with higher altitudes doesn’t interrupt the router’s operations. When it comes to reliable aerial connectivity, you really can’t go wrong with the RUTX11. LIKE THIS STORY? Share it with friends! Facebook X (Twitter) LinkedIn Copy link GOT A QUESTION? We’re here to help! CONTACT US Add a Title Industrial & automation FEATURED PRODUCT Heading 5 Description Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Name Add a Title Start Now Add a Title Start Now Add a Title Related products View more View less Related accessories View more View less

Explore the SWM282 – a 24-port managed switch featuring 24 PoE+ ports, 4 SFP ports, and more. Pricing varies by distributor and region. Contact us for a quote. SWM282 SWM282 PoE+ managed switch The SWM282 is a high-capacity L2 managed switch with enhanced L3 capabilities, built to simplify network control while delivering power and connectivity at scale. It features 24 PoE+ ports, supplying up to 30 W per port with a total power budget of 300 W, and 4 SFP ports. With support for PROFINET and other industrial protocols, this 24-port switch is an ideal choice for enterprise networks and IIoT solutions. INQUIRE NOW End of ordering: date End of production: date End of support: date Replacement: Shop Now , EOL list PoE+ Deliver power and data through 24 PoE+ ports with up to 30W per port L2+ Advanced routing protocols & VLAN segmentation Cloud-Enabled Shipped with 2 years of RMS Management Protocols Profinet, MRP, and EtherNet/IP for mixed industrial environments 3d model click to load 3d full screen PRODUCT GALLERY introduction video qsg video MORE PHOTOS features downloads ordering support features Certifications downloads ordering support Title Spec title Spec text Spec title Spec text Title Spec title Spec text Spec title Spec text All Features Less features remote management system LEARN ABOUT RMS USE CASE // ALL USE CASES LOAD MORE USE CASES See how Teltonika Networks products empower IoT solutions across multiple industries! ALL USE CASES LOAD MORE WIKI knowledge base In our extensive Wiki knowledge base you can find everything from the latest firmware, usage scenarios and changelogs to certificates and first start guides. Access wiki compatible ACCESSORIES Less accessories More accessories you mAY also like ALL PRODUCTS rms all use cases newsroom

RUT240 is a Teltonika Networks 4G industrial Wi-Fi router with WAN failover, backward-compatible with 3G and 2G. Click here to learn more. Pricing varies by distributor and region. Contact us for a quote. RUT240 INDUSTRIAL CELLULAR ROUTER INQUIRE NOW End of ordering: 2023 July 31 End of production: 2023 December 31 End of support: 2028 July 31 Replacement: RUT200 EOL list CONNECTIVITY 4G LTE (Cat 4), 3G, 2G WI-FI Wireless Access Point with Hotspot functionality WAN FAILOVER Automatic switching to available Backup connection RMS For remote management, access & VPN services 3d model click to load 3d full screen PRODUCT GALLERY introduction video qsg video MORE PHOTOS features downloads ordering support features Certifications downloads ordering support Title Spec title Spec text Spec title Spec text Title Spec title Spec text Spec title Spec text All Features Less features remote management system LEARN ABOUT RMS USE CASE // ALL USE CASES LOAD MORE USE CASES See how Teltonika Networks products empower IoT solutions across multiple industries! ALL USE CASES LOAD MORE WIKI knowledge base In our extensive Wiki knowledge base you can find everything from the latest firmware, usage scenarios and changelogs to certificates and first start guides. Access wiki compatible ACCESSORIES Less accessories More accessories you mAY also like ALL PRODUCTS rms all use cases newsroom

The combination of the RUTX11 and RUTX10 industrial routers enables 4G connectivity for temperature sensors in insulated industrial refrigerators. Learn more here. Connectivity for Temperature Sensors in Insulated Industrial Refrigerators HIGHLIGHTS ✔ Food venues must maintain their stock in stable temperatures to avoid the financial losses resulting from spoiled ingredients. To prevent this from happening, industrial refrigerators must be equipped with thermal sensors. ✔ However, these sensors use Bluetooth to communicate, the signal of which is blocked by the thick metal walls of these refrigerators. ✔ The combination of our RUTX11 cellular router and RUTX10 Ethernet router provides a stable 4G connection to the sensors while also making for efficient use of data. THE CHALLENGE – FAST-FOOD BLUETOOTH It is a fact of our modern life that food must stay refrigerated for it to not spoil. However, in the hustling world of restaurants, cafes, bars, and other food venues, a great deal of planning goes to ensure stable temperatures for ingredients and stock. This is true for anything from relatively small industrial refrigerators to large and insulated room-sized ones, known as walk-in refrigerators. A wide range of air conditioning malfunctions can very easily go unnoticed, causing ingredients to become too warm or too cold, and spoil as a result. The larger the scale of your business, the greater the risk of your stock being wasted, your customers not getting served, and the resulting financial losses. To prevent this from happening, industrial refrigerators must be equipped with thermal sensors, enabling automatic monitoring of temperatures and immediate alerts the moment the temperature changes. However, these sensors use Bluetooth to communicate, and the insulating nature of these refrigerators necessitates thick metal walls that make connectivity unreliable. TOPOLOGY THE SOLUTION – STAYING COOL, STAYING CONNECTED When the environment isn’t connectivity-friendly, it’s best to dispatch the friendliest of connectivity devices! The solution begins with our RUTX11 industrial router, placed by the register for easy access and wide coverage to all small refrigerators in the venue. Wi-Fi, RUTX11 provides network connectivity to a RUTX10 Ethernet router placed in the fridges, which is connected to the temperature sensors via LAN. Both devices can be easily installed using DIN rail, simplifying complexity. The reason for this setup is that a single router would not be able to connect to all the sensors. In addition, using an Ethernet router with a powerful LTE Cat 6 router such as RUTX11 makes for efficient use of data, as the challenge of breaking through the thick metal walls is overcome with Wi-Fi – not cellular data directly. RUTX11 is equipped with switching scenarios such as auto failover and backup WAN, and utilizes Wave-2 802.11ac Dual Band WI-FI. This results in a stable, stable 4G connection to the sensors, and unchanging temperature control. But when a food chain has more than a single venue, managing the routers presents a logistical problem. Sending your engineer to every venue whenever its routers need configuration, maintenance, or firmware update amount takes a lot of time and financial resources. This is where compatibility with the Remote Management System (RMS) of Teltonika Networks helps streamline the workflow by enabling remote access. This allows for remotely configuring and maintaining the routers and routinely updating their firmware – all at once! Of course, for this solution to function properly, it’s important for RUTX10 to be able to operate in the temperatures needed to keep stock refrigerated or frozen. Luckily, both routers operate seamlessly between -40°C and 75°C. Encased in sturdy aluminum housing, they can even take quite a hit without the network getting disrupted! LIKE THIS STORY? Share it with friends! Facebook X (Twitter) LinkedIn Copy link GOT A QUESTION? We’re here to help! CONTACT US Add a Title Retail FEATURED PRODUCT Heading 5 Description Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Add a Title Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles. Name Add a Title Start Now Add a Title Start Now Add a Title Related products View more View less Related accessories View more View less

Teltonika adds eSIM bootstrap to RUT2- and RUT9-series eSIM routers, enabling instant setup and RMS access from first boot More News 12/3/2025 RutOS 7.19 firmware update: the latest enhancements 12/3/2025 Teltonika Apps : convenience at your fingertips 11/26/2025 Top IoT Security Risk or Why You Must Update Router Firmware eSIM Bootstrap: Out-of-the-Box Connectivity for Teltonika eSIM Routers 9 October 2025 Some of the Teltonika devices feature eSIM technology , built directly into the device hardware and managed digitally through GSMA Remote SIM Provisioning. Unlike traditional SIM cards, this embedded approach eliminates the need for physical slots or manual handling. Instead, network operator profiles can be downloaded, switched, and updated remotely, making connectivity fully software driven. Starting in October 2025, Teltonika is introducing eSIM Bootstrap profiles to its RUT2- and RUT9- eSIM routers. This enhancement provides reliable connectivity designed for remote-first management from. To activate the eSIM Bootstrap profile instantly, users should access the router through the WebUI, otherwise the connection will establish automatically within an hour. With this feature, Teltonika eSIM routers simplify deployment, minimize downtime, and ensure a seamless start to every installation. The full range of Teltonika eSIM routers will gradually receive the eSIM Bootstrap feature as part of the ongoing rollout! Understanding Teltonika's eSIM Routers Remote management made easy For IoT solutions with devices scattered across factories, vehicles, or outdoor sites, eSIM technology brings major advantages. Network engineers can provision new profiles, push updates, troubleshoot, or restart routers through RMS , Teltonika’s remote management tool, without ever needing to visit the hardware. It reduces maintenance costs, improves uptime, and makes scaling large deployments far more efficient. Reliable connectivity & continuous security The eSIM Bootstrap feature allows you to download the network operator profile without Wi-Fi or a wired internet connection, as long as mobile network coverage is available. In addition to that, the eSIM devices lower the risk of tampering, SIM theft, or unauthorized access, while supporting up to seven profiles simultaneously. These profiles remain encrypted and even if one is deactivated, the device will stay connected without the need for a physical visit to replace the SIM card. How eSIM Bootstrap Works? Each bootstrap profile offers 10 MB of data, enough to download a dedicated eSIM profile from your service provider. On startup, it ensures the router can always reach Teltonika’s Remote Management System (RMS) and the SM-DP server, responsible for delivering and managing eSIM profiles. The bootstrap profile only allows specific traffic such as RMS, DNS , and DHCP , while blocking everything else. Also, if no physical SIM card is detected within the first hour, the router automatically switches to the bootstrap profile to establish connectivity until a network operator profile is downloaded. Once the new profile is active, the system returns to its usual operation. Why Bootstrap Matters? Even with multiple advantages, eSIM devices still face a challenge. On first boot, they need a working connection to download their initial profile or to configure it remotely through RMS . Without this, deployment can stall before the device becomes operational. For industries such as smart cities , utilities, or transportation , where hundreds or thousands of devices must be activated across different regions , bootstrap-enabled eSIM routers make large-scale deployment faster, simpler, and far more reliable. Let's get in touch! Curious how Teltonika’s eSIM routers with bootstrap profile can help in your infrastructure? Reach out by clicking the button below! LIKE THIS STORY? Share it with friends! Facebook X (Twitter) LinkedIn Copy link GOT A QUESTION? We’re here to help! CONTACT US

Teltonika Networks has recently identified a critical firmware vulnerability in its TRB1-series devices. Click here to learn more. More News 12/3/2025 RutOS 7.19 firmware update: the latest enhancements 12/3/2025 Teltonika Apps : convenience at your fingertips 11/26/2025 Top IoT Security Risk or Why You Must Update Router Firmware Critical Security Update for TRB1-series Gateways 9 January 2024 Teltonika Networks has recently identified a critical firmware vulnerability in its TRB1-series devices. To ensure your devices’ security, we highly recommend you update their firmware to version TRB1_R_00.07.05.2 or newer. We have recently identified a firmware vulnerability in our TRB1-series devices. This vulnerability can only be exploited through LAN access via Ethernet or USB interfaces and does not affect devices remotely via mobile networks. It affects the TRB140 , TRB141 , TRB142 , TRB143 , and TRB145 industrial gateways across all firmware versions before TRB1_R_00.07.05.2 . Version TRB1_R_00.07.05.2 of the firmware has resolved this issue, so we highly recommend you update the firmware of your TRB1-series devices to the latest version to ensure the continued secure operation of your devices. You can download and install firmware updates from our Wiki page, FOTA, or RMS . Regularly updating your devices’ firmware to the latest version is essential to keeping it secure. As always, Teltonika Networks is committed to transparency regarding such issues and to ensuring the security and reliability of its products. For further assistance or advice on updating the firmware, please reach out to our technical support Helpdesk. LIKE THIS STORY? Share it with friends! Facebook X (Twitter) LinkedIn Copy link GOT A QUESTION? We’re here to help! CONTACT US

Get reliable RS485 and RS232 data over 5G Redcap, 4G, or Wi-Fi with RUT276, RUT145 and DAP145. Native serial-to-IP conversion with Modbus, DLMS, OPC UA & BACnet. More News 12/3/2025 RutOS 7.19 firmware update: the latest enhancements 12/3/2025 Teltonika Apps : convenience at your fingertips 11/26/2025 Top IoT Security Risk or Why You Must Update Router Firmware Unleash RS485 & RS232 Data to Cloud: RUT276, DAP145 & RUT145 29 October 2025 The primary challenge in industrial digitalization is bridging the gap between field-proven serial communication and modern, cloud-ready IP networks. Millions of operational assets rely on the robust, long-distance reliability of standards like RS485 and RS232, but extracting this critical data for analytics or remote management remains complex and costly. To solve this, we are introducing a trio of industrial devices designed to make serial integration straightforward, secure, and ready for the future, covering every possible backhaul scenario. Leading the charge is the RUT276 5G Redcap router, followed by the versatile RUT145 industrial router, and the DAP145 industrial wireless access point. These devices ensure data from your critical assets is no longer isolated, but securely delivered to any platform, anywhere. The Common Ground for Industrial Serial-to-IP Integration All three devices are built on a unified software and hardware foundation that eliminates complexity and ensures standardization across your deployments, regardless of the backhaul technology you choose. Native Serial Interfaces and Industrial Communication Protocols Let's make dealing with external media converters a thing of the past. Each device includes a dedicated, native RS485 or/and RS232 interface, eliminating component overhead and points of failure. This hardware is backed by native support for all major industrial communication protocols – including Modbus , DNP3, DLMS, OPC UA, and BACnet. Coupled with the secure RutOS environment, these conectivity devices guarantee immediate compatibility with your existing assets. Effortless Cloud Integration Moving operational data to the cloud must be both efficient and affordable. All devices feature the powerful Data to Server tool, the central data collection engine designed to collect and convert data from industrial equipment and send it directly to cloud platforms or servers via MQTT , HTTPS, or custom scripts. This efficiency directly translates into high reliability and enhanced real-time performance for your data streams. Simplified Management at Scale with RMS The ultimate operational advantage is the seamless integration with the Remote Management System (RMS). As a centralized platform, RMS grants technicians complete command and control over the entire deployment, enabling remote configuration, streamlined maintenance workflows (including scheduled firmware updates), and essential monitoring tools. Besides, RMS provides secure VPN access for remote PLC operations, simplifying management and boosting efficiency, and supports features like unlimited data collection . This comprehensive suite drastically simplifies management at scale, leading to a significant reduction in overall operational expenditure. RUT276: Futureproofing with 5G Redcap The RUT276 is a compact, industrial-grade cellular router that brings the transformative power of 5G Redcap technology directly to your remote IIoT and M2M applications . As the most advanced option, it sets the standard for serial-to-cellular connectivity. Seamless Transition to 5G The RUT276 provides a cost-effective way to access the core advantages of 5G, including higher throughput and lower latency. With its built-in RS232 and RS485 interfaces, it can effortlessly bridge your existing industrial devices to a modern 5G network without a complete system overhaul. Engineered for Mission-Critical Reliability The RUT276 is an industrial router that truly thrives under pressure. Its rugged aluminium housing and wide operating temperature range ensure flawless performance in even the most demanding industrial environments. Its flexible mounting options also ensure simple installation in space-limited deployments. To guarantee your operations never miss a beat, we’ve included dual SIM with auto-failover, providing a critical layer of redundancy that maintains an always-on connection. The device also supports an optional eSIM , which replaces one of the physical SIM cards, offering even greater flexibility in managing your mobile data plans. RUT145: The Robust Ethernet Router for Serial Systems The RUT145 industrial router is the versatile workhorse, specifically engineered for sites where wired Ethernet backhaul is preferred for maximum stability, security, or high-speed throughput. It provides a highly stable and cost-effective solution for industrial data needs that do not require cellular connectivity. It is the ideal choice for reliable protocol translation in stable wired environments, while also offering local Wi-Fi sharing. Designed for Industry As expected from industrial Teltonika devices, the RUT145 features a rugged, space-saving industrial design. It is engineered for resilience in challenging conditions, supporting a wide operating temperature range. Key installation features include a narrow footprint, integrated DIN rail mounting, and convenient top-entry terminal block power, all ensuring a robust build and simple, quick installation in crowded control cabinets. DAP145: Wireless Industrial Connectivity The DAP145 Industrial Wireless Access Point provides the operational freedom necessary for rapid modernization and expansion when costly cabling presents a major barrier. Bypass Cable Runs: Affordable RS485 Deployment over Wi-Fi The most immediate benefit the DAP145 delivers is its ability to eliminate cabling as a roadblock to digitalization. As a high-performance industrial wireless access point, it connects the integrated RS485 port to the network over Wi-Fi, bypassing the massive financial and logistical disruption of running new Ethernet conduits. This flexibility enables rapid deployment and immediate connection for assets previously considered too remote or costly to network. Resilient Coverage: Mesh Wi-Fi For large industrial spaces, network stability depends on intelligent architecture. The DAP145 provides Wi-Fi mesh access point capabilities, allowing system integrators to easily expand the coverage footprint. This results in a network that is both highly resilient and easy to scale, automatically eliminating potential dead zones and ensuring uninterrupted industrial connectivity across vast areas. Seamless Mobility for Critical Assets with Fast Roaming In any modern, high-efficiency facility, asset mobility is king, and any network transition failure is costly. The DAP145 addresses this with robust fast roaming features. This technology guarantees that all mobile clients – from automated guided vehicles to maintenance tablets – maintain a continuous, stable network connection as they move between industrial access point coverage areas. This elimination of disruptive handoffs ensures operational continuity, protecting data integrity and maximizing the uptime of critical assets dependent on stable RS485 communication. Your Cohesive Strategy for Serial Digitalization The RUT276, RUT145, and DAP145 share a unified management platform and protocol stack – all powered by RutOS and managed by RMS – giving technical professionals the precise tools needed to integrate industrial RS485 and RS232 networks with the high-efficiency Cloud ecosystem. Whether your deployment demands future-proof 5G Redcap access, robust wired Ethernet stability, or cable-free Wi-Fi extension, this cohesive trio is ready for any backhaul scenario. These specialized, reliable, and standardized paths transform your existing serial infrastructure into a fully monitored and scalable digital system. LIKE THIS STORY? Share it with friends! Facebook X (Twitter) LinkedIn Copy link GOT A QUESTION? We’re here to help! CONTACT US