The MAX33040Eshld shield evaluation kit by maxim integrated represents a demonstration and development platform for the MAX33040E CAN Bus transceiver. It serves as a standalone evaluation board and the Mbed or Arduino platform to communicate with a CAN Bus network. The board features test points to access critical signal pins of the transceiver. The MAX14931 digital isolator is used as a level translator with a 1.71 VDC to 5.5 VDC supply range which also feeds the micro-controller. The onboard microSD card socket supports OBD-II (vehicle diagnostics) applications.
The MAX33040E/MAX33041E are +3.3 VDC Controller Area Network (CAN) transceivers with integrated protection for industrial applications. These devices possess extended ±40V fault protection on CAN_H and CAN_L for equipment where overvoltage protection is required. They also incorporate high ±40 kV ESD HBM and an input common-mode range (CMR) of ±25V on CAN_H and CAN_L, exceeding the ISO 11898-2 CAN Standard of -2V to +7V. This makes these parts well suited for applications enduring moderate electrical noise, influencing the ground levels between two nodes or systems. The transceiver features a shutdown pin and a multifunction standby pin.
- Easy Evaluation of the MAX33040E CAN Bus Transceiver
- I/O Interface Compatibility from 1.71 VDC to 5.5 VDC
- Proven PCB Layout
- Mbed™/Arduino® Platform +
- Fully Assembled and Tested
Teensy 4.0 Triple CAN Bus Board With Two CAN 2.0B And One CAN FD Port
The Teensy 4.0 Triple CAN Bus Board is a Teensy 4.0 board with triple CAN Bus connections, two Classical CAN 2.0B, and one CAN FD. It can be powered by an external +12 VDC power supply with reverse voltage protection.
The Teensy 4.0 is an Arduino-compatible board with an Arm Cortex-M7 microcontroller running at 600 MHz. The board is compatible with the Arduino IDE and the Arduino library. In most cases, code written for another Arduino board works with a minimum of changes on a Teensy.
NMEA 2000 Powered Computer System With Raspberry Pi 4, NMEA 2000 HAT, Pre-Installed OpenPlotter And Signal K
Copperhill Technologies offers various NMEA 2000 compatible embedded systems, including HATs for the Raspberry Pi and the Arduino-compatible line of Teensy modules. The NMEA 2000 standard defines a low-cost, modest capacity, bi-directional, multi-transmitter, multi-receiver instrument network. The hardware layer utilizes the CAN (Controller Area Network) technology. Typical data on an NMEA 2000 network include: Position latitude and longitude GPS [...]
Portwell launched its Lynx-612B PC, an industrial PC of their Lynx-6000 Industrial IoT (Internet of Things) gateway series based on the Intel Celeron N3350 CPU (formerly Apollo Lake platform). The device is equipped with a two-core CPU, and it is certified by Microsoft Azure IoT, which provides a scalable infrastructure for data, virtual machines, servers, and front-end [...]
Microsys Electronics announced its Miriac MPX‑LX2160A, a System-On-Module (SOM) dedicated to commercial vehicles and mobile systems. The module supports two CAN FD interfaces.The module is based on the NXP LX2160A processor and offers 16 Arm Cortex-A72 cores, which are twice as many as its predecessors. The configuration meets the requirements of (artificial intelligence) edge server applications, autonomous [...]
DAB-Embedded introduced its USB2IO interface explorer, a device that connects USB to various I/O interfaces for prototyping and functionality tests of electronic devices with CAN, CAN FD, and CANopen interfaces.The product combines a protocol analyzer, data-logger, communication interface, an embedded functional test platform, and basic signal generator. The device targets electrical engineers, firmware developers, enthusiasts, and [...]
Emtrion Embedded Systems introduced its Emstamp Argon computer-on-module, an STM32 module with two CAN FD interfaces. The board utilizes the STM32MP157 processor from ST Microelectronics. It carries dual ARM Cortex-A7 (650 MHz) and ARM Cortex-M4 (200 MHz) cores, making it suitable for Industrial Internet of Things (IIoT) and other industrial communication systems. Moreover, it provides an ARM [...]
Emcomo (Germany) introduced its EM-RPI-Box passive-cooled embedded system with two CAN FD interfaces. The fanless embedded system with two CAN FD interfaces is based on a Raspberry Pi CPU board, and it comes with several mounting options. Target applications are industrial automation and automotive. The product comes with a Broadcom BCM2711, quad-core Cortex-A72 (ARM v8) 64-bit SoC [...]
The MasterCAN data converter series by Technoton serves as an interfacing and transformation tool between CAN J1939/71, J1708 (SAE J1587), and RS-485/232 (Modbus RTU) communication devices, designed for vehicle telematics (GPS vehicle tracking) and industrial automation (IIoT). The MasterCAN data converter is suitable for integrated sensors and peripherals with different interfaces into single telematics and remote management system. [...]
User-Configurable CAN to LIN Gateway Can Act As A Bi-Directional CAN-LIN Bridge Or Remote I/O Module
The CAN-LIN Gateway ECU by Mach Systems is an electronic control unit with two CAN/CAN FD channels, a LIN Bus port, and various multi-purpose digital/analog inputs and outputs. The control unit is completely configurable and can operate as a stand-alone data converter between a CAN/CAN FD and a LIN bus network or remote I/O modules to connect vehicle [...]
The following is an excerpt from A Comprehensible Controller Area Network by Wilfried Voss. Like any field-bus system based on serial communication, Controller Area Network will reduce wiring, which was initially considered an advantageous side effect. Distributed control, i.e., the use of a multi-processor system, will consequently result in increased performance. The vastly reduced costs of microcontroller [...]