Automotive Embedded system is an electronic system used to control mechanical devices or access data from it. It could be a single programmed chip such as ARM, Cortex or a microprocessor such as DSPs, FPGAs, and ASICs etc. A software program specifically designed to perform certain tasks are integrated into these systems. They improve performance, security and control of the vehicle. Computer programming languages like C, Embedded C++, Python, Rust, Ada, B# etc. are used to develop programs for Automotive Embedded System. Several features like traction control, telematics, parking system, collision sensors, anti-lock braking system etc. are the commonly seen applications. Traffic fatalities and accidents have drastically reduced in the last decade and all the credit goes to Automotive Embedded System.
Why should I learn Automotive Embedded System?
Every vehicle would require several kinds of advanced embedded systems to meet legal obligations and exceed customer expectations. The industry has enjoyed 20% growth last year and there is no looking back. While we are heading to a world of driver-less cars, automotive embedded system has huge scope in the future. The demand for automotive embedded engineers are skyrocketing in the job market.
For a rewarding career in automobile industry Automotive Embedded Systems Course is a good start. The course includes MCU peripheral programming, driver development for SPI, I2C, GPIO, USART, Prototype APIs, capturing/decoding, analyzing serial protocols on logic analyzer etc. You will learn embedded systems programming language and many more things to become a successful automotive Embedded System Engineer.
CHAPTER 1 : C PROGRAMMING LANGUAGE
CHAPTER 2 : ARM MICROPROCESSOR
CHAPTER 3 : EMBEDDED SYSTEMS
CHAPTER 4 : LPC2148
CHAPTER 5 : EXTERNAL HARDWARE INTERFACING
CHAPTER 6 : LED
CHAPTER 7 : SSD
CHAPTER 8 : LCD
CHAPTER 9 : MOTOR
CHAPTER 10 : PLL
CHAPTER 11 : SERIAL COMMUNICATION
CHAPTER 12 : WORKING WITH INTERACTIVE GENERATOR
CHAPTER 13 : WIRELESS PROTOCOL
CHAPTER 14 : AUTOMOTIVE EMBEDDED SYSTEM DESIGN
CHAPTER 15 : CAN PROTOCOL
CHAPTER 16 : CANOE SOFTWARE
CHAPTER 17 : CAPL SCRIPTING
CHAPTER 18 : TIMERS
CHAPTER 19 : DIAGNOSTICS
CHAPTER 20 : UDS (UNIFIED DIAGNOSTIC SERVICE)
CHAPTER 21 : LIN (LOCAL INTERCONNECT NETWORK)
CHAPTER 22 : FLEXRAY
CHAPTER 23 : WORKING WITH INTERACTIVE GENERATOR
