AutoBoardV1 Development Board
What is AutoboardV1
Short Intro on AutoBoardV1
AutobordV1 is Automotive Hardware Board Built on S32K344 MCU
Technical Hardware
Features of AutoboardV1
S32K344 MCU in LFQP174 pin package
AutoboardV1 is built on NXP Semiconductors Automotive Microcontroller S32K344, which supports Security and Ethernet Features
Adaptor based Power Supply
12V adaptor for power suppl
Reset Configuration
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80 pins I/O Headers
80 pins I/O header pins exposing majority of pins for external use and also in breadboard compatible size
24 pins I/O Headers
24 pins I/O header pins exposing rest of pins for external use via jumper wires or shields
2 OnBoard User Buttons
On Board Tactile User buttons via GPIO peripheral
Onboard 3 CAN2.0B Ports via screw terminals
AutoboardV1 has 3 CAN ports: 1xCAN 2.0B using TJA1443 and 2x CAN 2.0B using TJA1051
On Board automotive ethernet using screw terminals
On board automotive ethernet using TJA1101
DUAL LIN Ports via screw terminals
On Board 2 lin ports using TJA1022
64 Mbit Automotive QUADSPI Flash
Onboard MX25L6433FM2I QUADSPI Memory Chip
OnBoard Crystal Oscillator
16Mhz On Board Crystal Oscillator
2 OnBoard RGB LED
On Board RGB LED via GPIO and PWM peripheral
On Board OpenSDA based Debugger via Type C port
OpenSDA based Debugger to program and debug the S32K344 via onboard debugger.
Onboard SWD 10-pin Connector for SWD Debugging
SWD debugging via external Jlink Debuggers or PE Micro Debuggers
On Board UART Port via USB type C
On Board UART Port using CP2102 for runtime logs and debugging
Input Power Supply Range
Can be powered by 6-17V Input Power supply via DC Barrel Jack for wide automotive applications
Power Configuration
Power configuration to run board on 5 or 3.3 Volts via on board terminal pins
Analog Power Configuration
ADC reference voltage configuration between 3.3V and 5V
Start With An Affordable
S32K344-Q100 EVB Board
- Import Charges
AutoboardV1 Pinout
Usecases of ElecronicsV2
Perfect Embedded Hardware Board for
Freshers and working professionals.
Learn Embedded Basics
Learn Basics of Microcontroller world using Industrial tools and framework like: Eclipse Based IDE, Jlink Debuggers, Microcontroller Software Packages (RTD, HAL) and Datasheet.
Learn Autosar Stack
Wanna learn and build skill sets for Autosaur Technology. ElecronicsV2 has support of Autosaur MCAL layer integrated with eclipse-based IDE..
Learn Device Driver Development
Learn how to use Microcontroller Peripherals like: GPIO, UART, I2C, SPI, Timers, Interrupts, DMA and etc with industrial Microcontroller Software Packages and stacks.
Learn Automotive Peripherals
Learn automotive peripherals like: CAN, LIN, FlexTimers, Hardware Security Modules on Industrial Microcontroller in cost effective ways.
Build Automotive projects.
Build Automotive projects in DIY form using Automotive sensors and frameworks.
Perfect Embedded Hardware Kit for
Automotive Startups/Corporates
Build automotive Proof of Conecpt
Nanotechnology immersion along the information highway will close the loop on focusing solely
Prototype/Reasearch based on Automotive cjips
Nanotechnology immersion along the information highway will close the loop on focusing solely
Plug and Play system
Nanotechnology immersion along the information highway will close the loop on focusing solely
To use ElecronicsV2
NXP Semiconductors provide Embedded Software tools and gettobyte provides Embedded Hardware Tools to start your journey on S32K1 series of Microcontroller. From Integrated Development Environment (IDE) to Microcontroller Software packages for S32K1xx series of Microcontroller. As ElecronicsV2 is built on S32K144 Microcontroller, which belongs to S32K1xx series. So toolchains will be same for using ElecronicsV2 boards.
S32 Design studio
IDE to write programs for ElecronicsV2
Jlink Debuggers
Debuggers to flash the programs into ElecronicsV2 boards.
S32 Non Autosar SDK
Non-Autosaur based Software stack of peripheral drivers, RTOS and middleware for using S32K144