Automotive Embedded Course provides comprehensive instruction in designing and programming embedded systems for vehicles, covering topics like automotive, and real-time operating systems. After enrolling in automotive embedded course you can also choose pay after placements facilty. You be prepared for industry interviews with mock interview feature at embedded box. In this course a candidate will also have flexibiliy in learning because the course is in online mode so the candidate can also go thrugh recordings and cover up all the syllabus any time suitable to him without any problem of time constraints.
Course Details
Automotive embedded course includes electronic systems composed into vehicles to control various functions and give advanced features. These systems consist of gear and software components planned to perform express tasks, overhaul vehicle execution, and work on the driving experience. These complex electronic systems, flawlessly coordinated into current vehicles, have changed the manner in which vehicles work, upgrading execution, wellbeing, and client experience. From controlling the motor's unpredictable mechanics to empowering advanced driver help highlights, automotive embedded systems have turned into the backbone of cutting-edge automotive innovation.
In this Course, we will examine the concept of Automotive Embedded Systems. Embedded box has designed automotive course in such a way that freshers and working professionals will realise how revolutionary this technology is and career opportunities that will embed their future with success. We will provide 100% Placement Support untill you get placed in this course. You will also getting an opportunity to work on live industry project under the guidance of our industry in automotive embedded course.
Training Syllabus
Introductin to Automotive embedded course will be based on real time application of how embedded softwares and systems are embed in the autmotives and improve their functionalities. Post completion of training you will be industry ready. Objective of this course is to deliver practical implementation. Embeddedbox.com will provide 100% Placement assistance till you get placed in this course.
Objectives
Automotive Embedded can be termed as an advancement or a revolution in automotive industry. It holds the potential of changing the automotive industry as a whole.With a lot of sensors, microcontrollers, and communication conventions, these systems further develop vehicle functionality as well as get ready for imaginative infotainment, telematics, and connectivity solutions. We are also providing pay after placements facilty in automotive course.
Automotive Embedded Course is designed to equip participants with an encompassing understanding of embedded systems within the context of modern automotive technology. Through a combination of theoretical learning and practical application, participants will gain the necessary knowledge and skills to proficiently design, develop, and implement embedded solutions for various automotive applications. By emphasizing hands-on projects, compliance with safety standards, and real-world challenges, this course aims to empower participants to create innovative and secure embedded systems that contribute to the advancement of automotive technology.
The objective of this Course is to provide participants with a comprehensive understanding of embedded systems' crucial role in modern automotive technology. This course aims to equip participants with the knowledge and practical skills required to design, develop, and implement embedded systems that drive various automotive applications, including vehicle control, and validation.
Duration
Course Fee
80000/-
Available Slots
2
Batch Size
10
Mode of Delivery
Online
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WHY CHOOSE AUTOMOTIVE EMBEDDED?
FEATURES
Mock Interviews
Pay After Placements
Live Projects
Interview Preparation
100% guaranteed Placement
ISO 9001 : 2015 Certified
Course Certificate
Project Certificate
Welcome to our Embedded Box. Our comprehensive courses cover a spectrum of topics, including system architecture, where you delve into the fundamental design principles that govern the interaction between hardware and software in embedded systems. Explore the intricacies of vehicle safety with our specialized module on the Anti-Lock Braking System (ABS) in Automotive Embedded training. Understand how ABS prevents wheel lock-up during braking, ensuring optimal control and safety on the road. Our in-depth automotive course on automotive embedded systems take you beyond the basics, introducing you to state-of-the-art technologies, sophisticated algorithms, and high-performance computing.
Delve into the world of traction control and discover how it revolutionizes automotive dynamics. Our curriculum for automotive course not only covers the theory but also provides hands-on experience in implementing traction control systems, preparing you for real-world challenges with this course. At our institute, we recognize the paramount importance of automotive embedded software. Our courses are tailored to equip you with the skills and knowledge required to develop robust and efficient software solutions for automotive applications.
Safety is our priority, and our curriculum aligns with the latest safety standards in the automotive industry. Gain a comprehensive understanding of safety protocols, ensuring that you are well-versed in creating secure and reliable embedded systems with our Automotive embedded training. Embark on a journey with our Automotive Embedded Course , where you'll gain insights into the foundational concepts that underpin the automotive embedded systems landscape. Join us and unlock a world of possibilities in the exciting field of embedded systems.
Automotive Embedded Systems Online Course
COURSE SYLLABUS
Introduction & Controllers
- Basics of Automotive domain
- Use of Embedded in automotive
- Automotive Embedded system design
- Automotive product development life cycle
- Automotive Sensors and Transducers
- Automotive grade microcontrollers
- Microcontroller Architecture
- Microcontroller programming
- Introduction to Misra C
- Misra C Guideines for Programming
- Sensor interfacing
- Hall Sensor for Speed
- PWM Generation
- Motor Control
- Actuators, Sensors, Semiconductor Components
- Integrated Circuits & SMD Components
- Electric Motors & Driving Techniques
Protocols
- Communication Protocol: USART, I2C, SPI, CAN Bus
- Use of Protocols, Communication Protocols: RS 232 | I2C protocol | SPI Protocol
- Introduction to Automotive Protocols: CAN | J1939
- CAN Protocol Training:
- Introduction to CAN protocol
- Use of CAN protocol in Automotive
- Basic of CAN Standard and Extended
- CAN communication
- Implementation of CAN drivers
- CAN Hardware
- comparison I2C,SPI,RS232-drawbacks
- Why CAN, CAN basics, OSI -reference model,
- Node concept, CSMA/CD-CR
- Frame contents for all types
- Physical Layer, Arbitration Concept, Frame Formats
- Bit-stuffing coding
- Types of errors – Ack error, stuff error, form error, bit error, crc error
- CAN bus arbitration
- Fault Confinement
- Interfacing of PIC18f458 with MCP2551 and CAN BUS
- Bit timing calculations
- Baud Rate calculations
- Architecture of CAN engine in PIC18f458
- need of filter and mask registers
- modes discussion in pic18f458
- Project creation
- loop back mode testing
- creating 2 nodes =transmitter and receiver nodes
- send any data from transmitter node and receiving the same data on
- receiver node
- Interview questions and discussion
- CAB Analyzer Tool Chain
- Building Simple CAN Application using CAN Training Kit
MATLAB Simulink
- Python Basics and programming
- Need for Simulation, Simulation Parameters – Simulation Time and Step Size
- Solver – Types and Use, Introduction to Model Based Design, Simulink Basics
- Simulink Library Browser, Simulink Editor Window
- Creating a simple model, Connecting blocks
- Simulating the model
- File handling in python
STATEFLOW
- Introduction to Finite State Machines
- Need of Stateflow, Stateflow Truth Table
- Stateflow Chart Editor, Flow based logic
- State based logic, Super state vs Sub states
- Stateflow elements – functions, embedded MATLAB functions etc
CAREER OPPORTUNITIES
Automotive Embedded
Embedded Software Engineer
Embedded Hardware Engineer
Embedded Systems Architect
Functionality Safety Engineer
Embedded Test Engineer
Control Systems Engineer
Automotive Embedded Consultant
Embedded Solutions Consultant
The field of embedded systems offers a wide range of career opportunities due to its widespread applications in various industries. Embedded systems are specialized computing systems designed to perform dedicated functions or tasks within a larger system. Here are some career opportunities in the field of embedded systems:
- Embedded Software Engineer:
- Design, develop, and test software that runs on embedded systems.
- Work with low-level programming languages such as C, C++, and assembly.
- Collaborate with hardware engineers to optimize software performance.
- Embedded Hardware Engineer:
- Design and develop hardware components for embedded systems.
- Work with microcontrollers, microprocessors, sensors, and other electronic components.
- Conduct hardware debugging and testing.
- Firmware Engineer:
- Develop firmware, which is a type of software that is closely tied to hardware and is often stored in non-volatile memory.
- Optimize code for resource-constrained environments.
- Work on device drivers, communication protocols, and system initialization.
- Embedded Systems Architect:
- Design the overall structure and architecture of embedded systems.
- Make decisions regarding hardware and software components to meet specific requirements.
- Consider factors such as power consumption, performance, and cost.
- IoT (Internet of Things) Engineer:
- Develop embedded systems for IoT applications.
- Work on connecting devices and enabling communication between them.
- Implement security measures for IoT devices.
- Automotive Embedded Systems Engineer:
- Work on embedded systems for automotive applications, such as engine control units (ECUs), infotainment systems, and safety systems.
- Understand automotive standards and protocols.
- Medical Device Embedded Engineer:
- Design and develop embedded systems for medical devices.
- Ensure compliance with regulatory standards in the healthcare industry.
- Focus on reliability and safety.
- Aerospace Embedded Systems Engineer:
- Work on embedded systems for aircraft, satellites, and space exploration.
- Consider factors such as weight, power consumption, and environmental conditions.
- Robotics Engineer:
- Develop embedded systems for robotics applications.
- Work on control systems, sensors, and actuators for robots.
- Design embedded systems for consumer electronics such as smartphones, smart TVs, and home automation devices.
- Consider user experience and connectivity features.
- Security Engineer in Embedded Systems:
- Focus on implementing security measures to protect embedded systems from cyber threats.
- Work on encryption, secure boot, and authentication protocols.
- Machine Learning Engineer for Embedded Systems:
- Integrate machine learning algorithms into embedded systems.
- Optimize algorithms for real-time processing and resource-constrained environments.
- Research and Development (R&D) Engineer:
- Engage in research to explore and develop new technologies for embedded systems.
- Contribute to innovation and advancements in the field.
- Quality Assurance Engineer:
- Test and validate embedded systems to ensure they meet specified requirements.
- Develop and execute test plans, including both hardware and software testing.
- Project Manager or Team Lead:
- Lead teams of engineers in the development of embedded systems projects.
- Coordinate tasks, manage resources, and ensure project timelines are met.
- Technical Support Engineer:
- Provide technical support for embedded systems products.
- Assist customers in troubleshooting issues and implementing solutions.
The field of embedded systems is dynamic and constantly evolving, offering opportunities for professionals with diverse skills and interests. As technology continues to advance, the demand for skilled embedded systems professionals is likely to remain strong across various industries with advanced embedded system and software tools .
1. Anti-Locking Braking System (ABS)
Automotive Embedded
- Components Installation: In a practical setting, ABS components are integrated into the vehicle's braking system. This includes sensors mounted at each wheel, typically near the brake rotor or hub, and an ABS control module installed within the vehicle's engine compartment or chassis.
- Sensor Calibration: Before deployment, sensors are calibrated to ensure accurate measurement of wheel speed. This calibration process may involve specialized equipment and software provided by the manufacturer.
- Integration with Brake System: ABS systems are seamlessly integrated with the vehicle's hydraulic brake system. Hydraulic valves controlled by the ABS module modulate the brake pressure to individual wheels based on real-time sensor data.
- Testing and Validation: Before mass production, ABS-equipped vehicles undergo extensive testing and validation in various conditions, including dry and wet road surfaces, gravel, and snow. This ensures that the system operates effectively across diverse driving scenarios.
- Driver Feedback: In practical use, drivers receive feedback through the vehicle's dashboard display or tactile feedback (such as pedal pulsation) when ABS is activated during hard braking or slippery conditions.
2. Advanced Driver Assistance Systems (ADAS)
Automotive Embedded
- Sensor Installation: ADAS systems incorporate various sensors, including cameras, radar, and lidar, which are strategically mounted on the vehicle's exterior (e.g., front grille, rear bumper, windshield) to provide comprehensive coverage of the vehicle's surroundings.
- Data Fusion and Processing: Data from these sensors are processed in real time by onboard ECUs using sophisticated algorithms. These algorithms analyze sensor data to detect objects, lane markings, traffic signs, and other relevant information.
- Autonomous Interventions: Depending on the specific ADAS feature, interventions may include automatic braking, steering corrections, or adaptive cruise control adjustments. For example, if a collision risk is detected, the system may autonomously apply the brakes to mitigate or avoid the impact.
- Human-Machine Interface (HMI): ADAS systems provide feedback to the driver through visual and auditory cues, such as warning messages on the instrument cluster, audible alerts, or haptic feedback (e.g., steering wheel vibration). This ensures that drivers are aware of system activations and potential hazards.
- Ongoing Development and Updates: Manufacturers continually refine and update ADAS algorithms through over-the-air (OTA) updates or vehicle service visits. This allows for continuous improvement of system performance and adaptation to evolving road conditions and regulatory requirements.
Certification from Embedded Box
Automotive Embedded Systems Course
EMI Plans
PAY AFTER PLACEMENTS
Automotive Embedded
Rs.80000
- 100% Placement Support
- Interview preparation
- Live Industry Project
- Duration-6 Months
- Rs. 80000
Pay Registration fees & Start Learning, Get Placed and Pay Amount at No cost EMI.
EMI Plans 12 Months
Rs.5,833 / month
- Easy Payments
- 0% EMI Cost
- No Red Tapism
- Easy Payments
- Rs. 80000
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EMI Plan 18 Months
Rs.3,888 / month
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- No Red Tapism
- Easy Payments
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EMI Plan 24 Months
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F.A.Q
Frequently Asked Questions
What are the benefits of an automotive embedded systems course ?
Automotive embedded systems improve vehicle safety, efficiency, and functionality. They also provide a more comfortable and convenient driving experience.
What career opportunities are available in the automotive embedded systems course ?
The automotive embedded systems field offers diverse career opportunities, including roles such as Embedded Software Engineer, Hardware Design Engineer, Systems Architect, Control Systems Engineer, and Functional Safety Engineer.
What programming languages are used in an automotive embedded systems course ?
C and C++ are commonly used in automotive embedded systems due to their efficiency and low-level programming capabilities.
Can I pursue Automotive Embedded Systems training while working full-time?
Yes, it is possible to pursue training in Automotive Embedded Systems while working full-time. Many training programs, especially those offered online, are designed to accommodate the schedules of working professionals.
How are embedded systems used in the automotive industry?
The automotive industry uses embedded systems to control various vehicle functions such as engine management, transmission control, brakes, climate control, and entertainment systems.
Which institute is best for an Automotive embedded system course?
For learning Best Automotive embedded Institute is embedded Box. We at embedded Box, provide placement support and internship resume preparation. Enroll for a free demo now.
What role do Automotive Embedded Systems play in electric vehicles (EVs)?
Automotive embedded systems play a crucial role in the development and operation of electric vehicles (EVs). Their role in EVs encompasses various aspects related to electric propulsion, energy management, safety, and user experience.
What is the role of Real-Time Operating Systems (RTOS) in Automotive Embedded Systems?
Real-Time Operating Systems (RTOS) are integral in automotive embedded systems for ensuring precise timing and responsiveness in critical applications. RTOS facilitates deterministic task scheduling, allowing high-priority functions like engine control and safety systems to meet stringent real-time requirements.
Can individuals from non-engineering backgrounds learn Automotive Embedded Systems?
Yes, individuals from non-engineering backgrounds can learn Automotive Embedded Systems, but they may need to acquire some foundational knowledge in relevant areas such as programming, electronics, and computer science. Many training programs and online courses are designed to accommodate learners from diverse backgrounds, providing introductory content before delving into specialized topics.
What are the prerequisites for automotive embedded training?
The prerequisites for automotive embedded training typically include a basic understanding of programming languages, preferably C or C++, and a foundational knowledge of electronics and computer architecture. Familiarity with microcontrollers, sensors, and communication protocols can also be beneficial for individuals seeking to excel in automotive embedded systems training.
What is Project Based Learning In Automotive Embedded System Course ?
Project-based learning in an automotive systems course involves hands-on, practical application of theoretical concepts through the completion of real-world projects. Participants engage in tasks such as designing embedded systems, programming controllers, or developing automotive applications, gaining practical experience that enhances their skills and understanding of the subject matter.
How does an Embedded Box certificate help me upskill?
An Embedded Box certificate helps you upskill by providing a focused and structured curriculum that covers essential concepts in embedded systems. This certification demonstrates your proficiency in the field, making you more competitive in the job market and equipping you with the practical knowledge needed for roles in industries such as automotive, electronics, and IoT.