Site Information

 Loading... Please wait...

Blog

Telematics Gateway Choosing Criteria and Use Cases

Posted by Industry News on

An article in the CiA (CAN in Automation) CAN Newsletter explains the functionality, discusses the selection criteria, and describes the use cases of a telematics gateway using an example telematics device.

As cars become more connected, original equipment manufacturers (OEMs) require telematics solutions that enable smooth communication within and outside the vehicle. The device should be cloud-enabled, connect to servers for real-time computation and analysis, and provide an intuitive user interface for interacting and controlling various operations.

When selecting a telematics gateway, it is important to consider various factors such as the type and nature of clients, geographical conditions, average distance to cover, and the type of vehicles. The following aspects should be considered:

  • Connectivity options: The transformation of connected mobility data relies heavily on dependable connectivity solutions. The telematics gateway needs to be capable of adjusting communication standards to match the required connectivity infrastructure for a vehicle. Depending on the specific application, a telematics gateway must support various wireless communication infrastructures, including Wi-Fi, Bluetooth, LTE, DSRC (dedicated short-range communication), and more.
  • Type of data to be collected: The growing variety of vehicle manufacturers, models, and features requires a telematics gateway with a modular architecture that can support multiple interfaces to the in-vehicle networks, such as CAN (using CANopen or higher-layer protocols), Ethernet, and others. This might include EIA-232, EIA-485, and more.
  • Software flexibility: A scalable software is essential for tracking diverse assets and vehicles simultaneously. The software stacks supported on the gateway should ensure interoperability among different vehicles and mobility infrastructures and reduce the development time of customized applications.

For example, a telematics gateway can be deployed in the following use cases:

  • Predictive maintenance in electric vehicles is a key area where a telematics gateway can significantly contribute. The gateway plays a vital role in ensuring the vehicle's safety and efficiency by providing drivers with crucial information about their battery health, charge level, and the nearest charging station. Its various onboard features and interfaces provide the necessary data to improve the vehicle algorithm, enhancing its performance and safety.
  • Farm equipment manufacturers are working to enhance farmer operations by securely sharing information about their daily activities. Telematics gateways installed in tractors, vehicles, and other farm equipment allow for tracking vehicle movement, location, driver status, fuel usage, and more.
  • Fleet management is another area where a telematics gateway can benefit significantly. Failures in fleet management, such as vehicle recalls resulting in service interruption, can be very costly. However, a telematics device with built-in interfaces such as CAN, EIA-232, and EIA-485 can help to prevent such failures. By collecting and securely sharing fleet information with owners, the gateway enhances fleet productivity and reduces costly failures, thereby providing a significant return on investment.
  • Heavy-duty and off-road vehicles, such as forklifts, cranes, and trucks, are often used in extreme conditions for long hours, making them vulnerable to frequent breakdowns. Through the integrated J1939 interface, the telematics gateway can retrieve diagnostic information and real-time data from the in-vehicle ECUs. This capability ensures vehicle uptime and enables predictive maintenance.

Read the full article (PDF)...


SAE J1939 Starter Kit And Network Simulator

SAE J1939 Starter Kit and Network Simulator

Our JCOM.J1939 Starter Kit and Network Simulator are designed to allow experienced engineers and beginners to experiment with SAE J1939 data communication without needing to connect to a real-world J1939 network, i.e., a diesel engine. 

To establish a network, you need at least two nodes. This applies especially to CAN/J1939, where the CAN controller will shut down after transmitting data without receiving a response. Therefore, our jCOM.J1939 Starter Kit and Network Simulator consist of two J1939 nodes: our jCOM.J1939.USB, an SAE J1939 ECU Simulator Board with USB Port.  More Information...

CANfetti: Open-Source CANopen Protocol Stack for Embedded Systems

Scythe Robotics, a developer of advanced, commercial-grade solutions for the professional landscaping industry, announced its first open-source release of CANfetti, a CANopen-compliant stack, developed to overcome the limitations of existing libraries. Developed and improved over the past few years by Scythe's firmware and software teams, CANfetti reduces the barriers to entry with an open-source, user-friendly, and [...]

Read More »


Raspberry Pi Pico CAN Bus System with Micro-Python Pre-Installed

The Raspberry Pi PicoBoard is an inexpensive and versatile development board designed for the RP2040 microcontroller chip developed by Raspberry Pi. It features an RP2040 microcontroller chip with 2MB of Flash, and a micro-USB port for power, data, and programming. The 40-pin dip-style header provides 26 multi-function 3.3V GPIO, 23 digital-only GPIO, and three ADC-compatible [...]

Read More »


SAE J1939 Functional Safety Communications Protocol & Trailer Safety Assurance

Commercial road and off-highway vehicles, as well as off-road construction machines, frequently utilize J1939-based application layers. In response to the growing need for functional safety, SAE has created specific protocols for CAN CC (classic) and CAN FD: J1939-76 and J1939-77, respectively. An article on the CiA (CAN-in-Automation) website discusses the SAE standards for functionally safe communications on CAN [...]

Read More »


JCOM1939 Monitor Pro - SAE J1939 Data Monitoring, Recording & Simulation

Our SAE J1939 to USB/Bluetooth gateway and the SAE J1939 Starter Kit are designed to work seamlessly with our JCOM1939 Monitor Pro Software for Windows, a free download. This combination is key to ensuring your purchased product's optimal performance and overall satisfaction. For your convenience, we have meticulously crafted a dedicated website. This one-stop hub houses [...]

Read More »


SAE J1939 and OBD-II Heavy Duty Truck Scanner and Diagnostic Tool

DPF Force Regen & Reset for Cummins Caterpillar Engine -- Reset and clean your DPF professionally, quickly, and efficiently to ensure your engine runs smoothly and meets emissions standards. This all-in-one solution saves you money on maintenance costs. The Inspection Record feature records all DPF inspections to help track and manage maintenance schedules. Full System Diesel [...]

Read More »


The Myth: Controller Area Network (CAN) is “Too Easy to Hack”

The potential security issues of CAN and its higher-layer protocols attract increased attention from the automotive, control, and medical industries. At first glance, believing that a well-documented standard like ISO 11898 makes it easier to manipulate control functions, whether in an automobile or a medical device such as an MRI or CT scanner, makes sense. [...]

Read More »


ESP32 Processor with Internal SJA 1000 CAN Bus Controller

This post is an excerpt from our application note Controller Area Network (CAN) Development with ESP32. The ESP32 is a low-cost, low-power system-on-chip microcontroller with integrated WiFi and dual-mode Bluetooth. It employs a Tensilica Xtensa LX6 microprocessor in dual-core and single-core variations. It includes built-in antenna switches, RF balun, power amplifiers, low-noise receive amplifiers, filters, and power [...]

Read More »


USB-CAN PC Interface with SAE J1939-13 Type II Connector

The Leaf Light HS v2 J1939-13 Type II, a standout in Kvaser's Leaf Light product series, is renowned for its reliability and affordability in connecting any CAN network to a PC or mobile computer. It's not just a workhorse but a dependable and cost-effective solution. The Leaf Light HS v2 J1939-13 Type II is a device that [...]

Read More »


Turn Your Smartphone into a Heavy-Duty Diagnostics Tool

Turn your smartphone into a user-friendly HD diagnostic tool. Download and sync via Bluetooth to the free Diesel Decoder smartphone app to view vital diagnostic and trip data. When your rig throws a fault code, the Diesel Decoder is your reliable companion. It removes the guesswork, guiding you to either clear the codes and continue your journey [...]

Read More »