Free download скачать Automotive ECU Hardware Design Architecture & Simulation
Published 10/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 3.68 GB | Duration: 3h 12m
Master ECU HW architecture and hardware design with datasheet-driven, WCCA-verified methods used in modern EV systems
What you'll learn
Analyze and design the internal hardware architecture of automotive ECUs, including power, signal, and microcontroller domains.
Simulate real automotive circuits in LTSpice - MOSFET SOA, thermal behavior, protection, and load-switch applications.
Apply ISO 26262 functional safety principles, WCCA, and FMEDA methods to embedded ECU hardware design.
Understand automotive ECU development flow across Tier-1/Tier-2 suppliers, including system, safety, and validation interfaces.
Integrate electrothermal modeling and circuit protection strategies for reliable, production-grade automotive design.
Requirements
Basic understanding of electrical circuits and components (resistors, capacitors, diodes, transistors, etc.)
Familiarity with Ohm's Law, Kirchhoff's Laws, and basic simulation tools (LTSpice, Multisim, or similar)
Prior exposure to embedded systems or automotive electronics is helpful but not required
Enthusiasm to learn real automotive ECU design principles beyond academic theory
Description
This is not a beginner course.It is an industry-level program designed for engineers who want to master real automotive ECU hardware design, architecture, and simulation-based validation - exactly as done in professional EV and Tier 1 environments.Welcome to:Automotive ECU Hardware Design: Architecture and SimulationThe most complete, industry-inspired training for mastering the electronics, protection circuits, and real-world design methods used in modern automotive ECUs.Unlike theory-heavy university courses, this program was created by an experienced automotive hardware engineer and focuses entirely on practical, production-grade design workflows - covering power distribution, MOSFET switching, thermal modeling, functional safety, and WCCA-based validation.What You Will LearnYou will learn how to design complete ECUs - understanding how each circuit block functions, protects, and communicates.Each topic combines simulation with LTSpice and TINA-TI, along with datasheet-based design using professional CAD tools, showing how real engineers develop safe and reliable automotive systems.Key Focus AreasPower Distribution and Protection - reverse battery, inrush, fuse, and ESD or EMC protection using real circuit topologies.Smart High and Low-Side Switching - System Basis Chips, MOSFET load drivers, and protection logic used in ECUs.Thermal and SOA Design - model Foster or Cauer equivalents, verify safe operating areas, and optimize PCB layout for thermal stability.Functional Safety (ISO 26262) - apply hazard analysis, redundancy concepts, and system-level validation.System Architecture Foundations - explore CAN, LIN, FlexRay, and automotive Ethernet used in next-generation ECUs.WCCA-Driven Design - perform datasheet interpretation, worst-case analysis, and design-margin validation for compliance.From Simulation to Real HardwareEach section connects directly to real ECU hardware, including motor drives, traction inverters, body control modules, and BMS systems.You will see how professional automotive engineers simulate, prototype, and validate ECU subsystems before production using verified workflows and real design standards.Who This Course Is ForAutomotive hardware engineers and system designers working on ECU or EV electronics.Embedded hardware developers integrating simulation and safety workflows.Advanced students aiming to move into professional automotive R&D.This course is not for beginners.It is for those ready to build, simulate, and validate real automotive systems using professional tools and methods.Tools and WorkflowYou will use LTSpice, TINA-TI, and thermal modeling tools, combined with ISO 26262 and WCCA methodologies, to analyze circuits and validate ECU reliability - exactly as done in real automotive design teams.OutcomeBy the end of the course, you will be able to:Architect and design real automotive ECUsSimulate and verify designs before hardware prototypingApply datasheet-driven and WCCA-based validationIntegrate all major hardware blocks in a modern ECUJoin now and transform your understanding of automotive electronics into a professional, industry-ready skill set.Master the art of designing safe, efficient, and reliable ECU hardware - from architecture to final validation.
Electrical andElectrical, electronics, or automotive engineering students who want to move from theory to real-world ECU hardware design automotive engineering students, embedded systems developers, or electronics professionals who want to master automotive ECU hardware design, simulation, and functional safety principles used in real-world vehicle development.,Embedded systems engineers looking to strengthen their understanding of automotive-grade electronics, circuit protection, and power design,Hardware developers, simulation engineers, and system architects aiming to apply LTSpice, WCCA, and ISO 26262 methods in their daily work,Professionals from Tier-1 suppliers or OEMs seeking to understand how modern ECUs are architected, simulated, and validated in practice
Homepage
https://www.udemy.com/course/automotive … imulation/
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