e-Fuse: Core Circuit Protection for Vehicle Architectures

Overview of e-Fuse electronic fuse technology for vehicle electrical systems: advantages, MOSFET/MCU protection principles, applications in E/E architectures.

A Flexible, Scalable Autonomous Driving Solution

Overview of autonomous driving systems, driver responsibility and automation levels, and architectural commonalities enabling driver assistance, sensing and redundancy.

How Different Engine Types Differ in Construction

Technical review of engine types and major subsystems: cylinder layouts, valve timing, combustion/injection, forced induction, cooling, lubrication and transmissions.

High-Voltage Wiring Harness Design for New-Energy Vehicles

Technical overview of high-voltage wiring harness design and layout for new-energy vehicles, covering dual-rail architecture, connector selection, shielding, and routing principles.

Domain Controller Fundamentals for Automotive Systems

Examines why distributed ECU-based architectures are inadequate and how centralized EEA with domain controllers improves compute utilization, wiring, bandwidth and maintenance.

48V Vehicle Low-Voltage Power System Safety

Analysis of 48V vehicle power network design and functional safety assessment, covering ISO 26262, modeling with PREEvision, architectures, FMEA, RBD and FTA.

7 Laser Welding Techniques for Automotive Manufacturing

Technical overview of seven laser welding and brazing methods for automotive manufacturing, detailing process principles, advantages, and materials compatibility.

Role of the VCU in Electric Vehicles

VCU (vehicle control unit) role in EVs: compares centralized vs distributed architectures and outlines core functions, drive control, regenerative braking, energy/network management.

Vehicle Heat Pump Design and Performance

Analysis of EV thermal management and heat pump design best practices, comparing layouts, control strategies, system roles and trade-offs to improve cold-weather range.

Why Automakers Build In-House Autonomous Driving Controllers

Analysis of automakers' in?house autonomous driving domain controller development: SoC selection, hardware/software architecture, mechanical design and verification trade-offs.