| Advance Career Track |
| Automotive Embedded |
| IOT Training |
| Autosar Training |
| MBD Training |
| PG Diploma in Embedded System |
| Embedded C Training |
| 8051 Training |
| Raspberry pi Training |
| Arduino Training |
| PIC Training |
| AVR Training |
| ARM 7 Training |
| ARM Cortex Training |
| Embedded Linux Training |
| CAN Training |
| STM32 Training |
| C Training |
| Online Automotive Embedded Course | Online IOT Training |
| Online Autosar Training | Online MATLAB Training |
| Online C Course | Online PIC Training |
| Online Embedded Course | Online STM32 Training |
Embed your future with Best Institute
For Embedded System Courses
100% Job Oriented Embedded Course
Automotive Systems:
Automotive Embedded system design , Automotive Vehicle Technology, Introduction to Vehicle Electronics, Critical & Non critical parameters, Vehicle Network, Body control, EMS, Climate control/Infotainment,Vehicle Sub Systems like Engine,Ignition control, Body control, Fuel, Emission, Brakes, Suspension, Emission, Doors, Safety units & Security, Infotainment , Communication & Lighting, Future Trends in Automotive Embedded Systems : Latest upcoming technologies used in automotive
Automotive Sensor & other components
Automotive Sensors and Transducers: Temperature, Pressure, Force, Humidity, CO2 Sensor ,Proximity sensor, Distance Sensors, Hall Sensor, Engine Knock Sensor, Potentiometer , Flow sensor. Typical Sensors Specifications & Interfacing with micro controllers Considerations, Calibrations of different sensor
Automotive Product Design life Cycle:
Concept to actual design of product, Building Blocks of Automotive Product design , Simulation of design , Hardware implementation, Firmware development, Integration of project, Testing in system, Electronic Product : Actuators , Semiconductor Components , Devices (MOSFET, JFET,SCR,BJT), Integrated Circuits (ICs), SMD Components and Packages , PCBs etc., Different Electric Motors & Driving Techniques : Stepper Motors , DC Motor , BLDC, PM Motor etc.
Automotive Protocols
Use of Protocols, Communication Protocols : RS485 MODBUS, RS 232, I2C protocol , SPI Protocol, Introduction to Automotive Protocols : LIN, CAN, J1939, FlexRay . Basics of CAN Protocol, use of CAN protocol in Automotive, CAN Standard and Extended, CAN communication, CAN bus arbitration, Fault Confinement, Implementation of CAN on hardware,CAN with live data analysis, CAN Transceivers, CAN Node creation and communication between nodes, Simple project with CAN, Introduction to Vehicle Calibration, Diagnostic,Boot loaders
Firmware Development:
Automotive Gradecontrollers, MSP430 , Freescale Controller , Cortex M3 ,
Introduction to Software Development Tools : Keil MDK, Freescale Codewarrior, TI Code Composer Studio .Software models, V Model, Coding Standards and Guidelines: MISHRA C, Introduction to Software quality tools, Version control tools
Testing and Validation:
Various tests to be conducted on unit, Procedure of test, Types of tests,
Functional Test
Black Box Test
Boundary level Test
Reliability
Certifications
Thermal
EMI/EMC, Noise
Live Project
| Sr. No. | Course Name | Batch Schedule | Duration | Registration |
|---|---|---|---|---|
| 1 | Advance Career Track in Embedded | 27 April 2024 , | 5 Months | |
| 2 | PG Diploma in Automotive Embedded | 27 April 2024 , | 3 months | |
| 3 | Autosar Training | 11 May 2024 | 3 months | |
| 4 | IOT ( Internet of Things ) | 27 April 2024 , | 45 days |
Embarking on a course in automotive embedded systems can pave the way for a rewarding career in the dynamic and innovative automotive industry.
In conclusion, pursuing a course in automotive embedded systems offers a gateway to a promising career in one of the most dynamic and rapidly evolving sectors of the automotive industry. With the increasing complexity of vehicles and the advent of electric and autonomous driving technologies, there is a growing demand for skilled professionals in embedded systems engineering. The benefits of such a course include acquiring industry-relevant skills, opening doors to diverse career opportunities, and the potential to work with top-tier companies driving innovation in automotive technology. By gaining expertise in automotive embedded systems, individuals can contribute to shaping the future of transportation while enjoying rewarding and fulfilling career prospects.
Automotive Embedded Systems are specialized computer systems integrated into vehicles to control various functions such as engine management, safety systems, infotainment, and autonomous driving features. These systems typically consist of hardware and software designed to operate in real time, ensuring reliable and efficient performance.
Skills required for a career in Automotive Embedded Systems include proficiency in programming languages like C/C++ and assembly language, understanding of microcontrollers and microprocessors, knowledge of real-time operating systems (RTOS), experience with communication protocols such as CAN, LIN, and Flex Ray, and familiarity with automotive industry standards like ISO 26262.
Some key challenges in Automotive Embedded Systems development include ensuring safety and reliability in safety-critical systems, managing system complexity as vehicles become more connected and autonomous, optimizing performance and power consumption, and staying compliant with industry standards and regulations.
Career paths in Automotive Embedded Systems include roles such as Embedded Systems Engineer, Automotive Software Engineer, Systems Integration Engineer, Embedded Systems Architect, Functional Safety Engineer, and Quality Assurance Engineer, among others.
Job prospects in Automotive Embedded Systems are promising due to the increasing demand for advanced automotive technologies, including electric vehicles, autonomous driving, and connected vehicles. Companies are actively seeking skilled professionals to design and develop embedded systems for these applications.
While prior experience in the automotive industry can be beneficial, it is not always necessary for pursuing a career in Automotive Embedded Systems. Many professionals transition into this field from related industries such as consumer electronics or telecommunications, leveraging their expertise in embedded systems development.
Common applications of Automotive Embedded Systems include engine control units (ECUs), electronic stability control (ESC) systems, advanced driver-assistance systems (ADAS), infotainment systems, telematics, vehicle-to-everything (V2X) communication, and autonomous driving technology.
To stay updated with the latest trends and developments in Automotive Embedded Systems, you can join professional organizations such as the Society of Automotive Engineers (SAE), attend conferences and seminars, participate in online forums and communities, and regularly read industry publications and research papers.
Functional Safety is crucial in Automotive Embedded Systems to ensure that systems operate safely, even in the event of failures or malfunctions. Compliance with standards such as ISO 26262 is essential for developing safety-critical automotive systems, including embedded software and hardware components.
Yes, there are several certifications and training programs available for Automotive Embedded Systems, offered by both academic institutions and professional organizations. These programs cover topics such as embedded systems design, real-time operating systems, automotive protocols, and functional safety standards like ISO 26262.
