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SAE J1939 Protocol Stack Sketch for Arduino Due
The availability of Controller Area Network (CAN) interfaces in combination with other interface technologies explains the vast popularity of the ARM Cortex-M3 processor in the CAN and SAE J1939 industry. The processor provides the means to easily and quickly create applications like CAN/J1939 gateways, CAN Bridges, J1939 ECUs, J1939 Data Logger, and many more. The Arduino Due [...]
App Note: Arduino Due 2-Channel CAN Bus Driver Software
The availability of Controller Area Network (CAN) interfaces in combination with other interface technologies explains the vast popularity of the ARM Cortex-M3 processor in the CAN and SAE J1939 industry. The processor provides the means to easily and quickly create applications like CAN/J1939 gateways, CAN Bridges, J1939 ECUs, J1939 Data Logger, and many more. The Arduino Due [...]
SAE J1939 ECU Simulator And Data Monitor for Raspberry Pi
The jCOM.J1939.USB gateway board is a high-performance, low-latency vehicle network adapter for SAE J1939 applications. It allows any host device with a USB COM port to monitor SAE J1939 data traffic and communicate with a SAE J1939 vehicle network. The board supports the full SAE J1939 protocol according to J1939/81 Network Management (Address Claiming) and J1939/21 Transport [...]
Controller Area Network (CAN Bus) Development And Prototyping with Raspberry Pi
The prototyping of Controller Area Network (CAN) applications used to be a tedious and expensive task, but the recent years have seen the emergence of low-cost, yet easy-to-use embedded development platforms such as the Raspberry Pi. The Raspberry Pi is a low cost, credit-card sized computer that plugs into a computer monitor or TV, and uses a standard [...]
CAN Bus Programming With Arduino Uno, Mega 2560
About Controller Area Network (CAN) Controller Area Network (CAN) is a serial network technology that was originally designed for the automotive industry, especially for European cars, but has also become a popular bus in industrial automation as well as other applications. The CAN bus is primarily used in embedded systems, and as its name implies, is a network technology that provides [...]
How To Boost The Performance And Industrial Strength Of Your Raspberry Pi
In general, the Raspberry Pi is a low cost, credit-card sized computer that plugs into a computer monitor or TV, and uses a standard keyboard and mouse. It is a capable little device that enables people of all ages to explore computing, and to learn how to program in languages like Scratch and Python. It’s [...]
Technical Literature: Embedded Systems Design With mbed LPC1768
This post is part of a series on CAN Bus and SAE J1939 Prototyping with the ARM Cortex M3 processor. Fast and Effective Embedded Systems Design: Applying the ARM mbedFast and Effective Embedded Systems Design is a fast-moving introduction to embedded system design, applying the innovative ARM mbed and its web-based development environment. Each chapter introduces [...]
WiFi Development Board With Arduino Compatible Programming Interface
The chipKIT™ Wi-Fire board enables rapid prototyping with Microchip’s latest PIC32MZ architecture and Imagination Technologies' Flow Cloud Internet connectivity development software. The chipKIT™ WF32™ by Digilent is an easy-to-use platform for developing Wi-Fi ® applications. As with other chipKIT boards, it uses a modified version of the original Arduino® IDE for compatibility with existing code examples, tutorials and [...]
Applying Test Driven Development (TDD) to Embedded C
Another day without Test-Driven Development (TDD) results in time wasted with chasing bugs and watching your code deteriorate. You thought TDD was for someone else, but it's not; it's for you, the embedded C programmer. TDD helps you prevent defects and effectively build software with a long useful life. This is the first book to [...]
App Note: ARM Cortex M3 Development Boards Require External CAN Bus Transceiver
The ARM Cortex-M is a group of 32-bit RISC ARM processor cores licensed by ARM Holdings. The cores are intended for microcontroller use, and consist of the Cortex-M0, M0+, M1, M3, M4, and M7. The ARM Cortex-M3 processor is very well suited for highly deterministic real-time applications, even for low-cost platforms, such as automotive body systems, industrial control systems, wireless [...]