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Growth Opportunities for Compound Semiconductors in Automotive

  • Report

  • 49 Pages
  • October 2023
  • Region: Global
  • Frost & Sullivan
  • ID: 5908919

Vehicle Electrification and Need for High-efficiency High-voltage Charging Systems to Drive Growth Potential

A compound semiconductor (CS) consists of two or more elements from different groups in the periodic table, such as gallium arsenide (GaAs), GaN, indium phosphide (InP), and silicon germanium. In the automotive industry, CSs have several advantages over elemental semiconductors (e.g., silicon [Si]). They operate at higher frequencies and temperatures, have higher electron mobility, and exhibit superior optical and electronic properties. This makes them ideal for high-speed charging systems, laser headlights, light detection and ranging (LiDAR), and high-speed sensors.

For example, because CSs have a wide band gap (WBG), they produce less heat than elemental semiconductors, thus losing less energy. This makes them suitable for manufacturing electric vehicle (EV) charging components. Manufacturers also use CSs to produce high-speed laser diodes, which are essential components in autonomous vehicles (AVs).

Emerging automotive concepts, such as AVs and vehicle-to-everything (V2X), are attracting significant global traction. CSs, such as GaAs, InP, and GaN, play a vital role in these emerging concepts. Overall, a CS is a critical component of modern vehicles, enabling the development of electric, autonomous, and connected vehicles.

This report covers the following modules:

  • Key Drivers and Challenges Influencing CS Development and Adoption
  • Technology Landscape
  • Stakeholder Ecosystem
  • Supplier Landscape
  • Strategic Developments
  • Geopolitical Analysis
  • Plant Expansion Plans
  • Technology Roadmap

Table of Contents

Strategic Imperatives
  • Why Is It Increasingly Difficult to Grow?
  • The Strategic Imperative 8™: Factors Creating Pressure on Growth
  • The Strategic Imperative 8™
  • The Impact of the Top 3 Strategic Imperatives of Compound Semiconductors (CSs) in the Automotive Industry
  • Growth Opportunities Fuel the Growth Pipeline Engine™
  • Research Methodology
Research Highlights
  • Scope of Analysis
  • Segmentation of CS by Material Type
  • Key Findings
  • Growth Drivers
  • Growth Restraints
Impact of Compound Semiconductors in Automotive Industry
  • Presence of CS in Automobiles
  • Overview of CS-based Hardware in Automobiles
  • Technology Benchmarking of CS Used in Automobiles
  • Stakeholder Ecosystem of CS in Automotive
  • Suppliers Landscape
  • New Product Development Activities of Key Players
  • New Product Development Activities of Start-ups
  • Geopolitical Scenario Impacting the Adoption of CS
  • Regional Analysis of CS in the Automotive Industry - Asia-Pacific
  • Regional Analysis of CS in the Automotive Industry - Europe
  • Regional Analysis of CS in the Automotive Industry - North America
  • Investment in Capacity Expansion of Foundries (2020-2023)
  • Strategic Partnerships
  • Mergers and Acquisitions (M&As)
  • Technology Roadmap
  • Emerging Use Cases of CSs
Growth Opportunity Universe
  • Growth Opportunity 1: Supply Chain Consolidation
  • Growth Opportunity 2: Strategic Partnerships Between SiC and GaN Semiconductor Suppliers
  • Growth Opportunity 3: Low-cost CS Devices to Realize Higher-voltage EV Systems
Appendix
  • Technology Readiness Levels (TRL): Explanation