Report Description Table of Contents Industry Report and Statistics (Facts & Figures) - Sales Volume, ASP by Technology & Vehicle Type The automotive electronic control unit will witness a robust CAGR of 5.6 percent, valued at $98.11 billion in 2022, and destined to reach $151 Bn by 2030, confirms Strategic Market Research. The Asia-Pacific region dominates the automotive electronic control unit market with a revenue share of 47%, estimated to witness the highest CAGR of 6.3%. The Electronic Control Unit is an embedded system within automotive electronics that manages & regulates various electrical systems/subsystems within an automobile. It acts as the brain of the vehicle, receiving input from multiple sensors & providing output to different actuators, ensuring optimal performance, efficiency & safety. Modern automobiles are equipped with a multitude of ECUs. Some modern automobiles have up to 150 ECUs. The embedded software in ECUs continue to increase in line count, complexity, and sophistication, making it challenging for OEMs to manage the increasing complexity and number of ECUs in a vehicle. The automotive industry is experiencing a rapid transformation with the introduction of advanced technologies such as connected cars, ADAS & EVs. These technological advancements have increased the complexity of vehicle systems, leading to a greater need for sophisticated ECUs to manage and coordinate various subsystems. Safety is of paramount importance in the automotive industry, hence prompting the adoption of stringent safety standards globally. ECUs play a crucial role in ensuring vehicle safety by managing functions such as anti-lock braking systems, electronic stability control & airbag deployment. Integrating advanced safety features has necessitated the use of advanced ECUs equipped with powerful processors, increased memory capacity, and enhanced communication capabilities. Combining artificial intelligence (AI) and machine learning (ML) technologies within ECUs is gaining traction, enabling enhanced functionality and predictive capabilities. Key Industry Drivers - Increasing Demand for Electric Vehicles, Technological Advancements & Increased Adoption of ECU. The electric vehicle ECU market is growing with a CAGR of 39.13%, poised to reach $55 billion by 2030. According to Bloomberg, 14Mn EV cars will be sold worldwide in 2023, 35% more than last year. The growing demand for electric vehicles (EVs) drives the Automotive Electronic Control Unit (ECU) market, which is crucial in managing complex systems and functions required for electric vehicle operation. Rapid growth in EV ECU demand reveals two trends: meeting ISO 26262 functional safety standards and future-proofing architectures with 'by-wire' control and actuation. The Battery Management System (BMS) monitors & controls various aspects of the battery pack, ensuring optimal charging, discharging & temperature management. Power Electronics and Motor Control (PEM) ECUs handle functions like voltage regulation, motor speed control, and torque distribution, optimizing power efficiency, smooth acceleration, and regenerative braking capabilities. As the global automotive industry shifts towards electrification, the demand for advanced ECUs tailored towards electric vehicle functionalities is expected to rise significantly. Advancements in automotive electronics and software technologies play a significant role in driving the need of the Automotive ECU market. As vehicles become more sophisticated and connected, there is an increasing demand for advanced ECUs to manage various functions and subsystems. ADAS technologies such as adaptive cruise control, lane-keeping assist, and automated emergency braking require powerful ECUs to process data from multiple sensors and make real-time decisions for vehicle control and safety. With the rise of connected cars, there is a growing need for ECUs that handle features like in-car infotainment, telematics & wireless communication. These ECUs enable seamless integration of smartphones, navigation systems, and internet connectivity within vehicles. Innovation in AI, ML & IoV (Internet of Vehicles) technology led to strides in the smart automobile industry. The ECU improves vehicle comfort & performance. Therefore, automakers also integrate ECU to enhance the efficiency and productivity of the automobile industry. For example, in February 2021, Magma deployed cameras and electronic Control units in premium vehicles that offer the benefit of a 3D view. This multi-camera system provides a 360-degree picture of the area around the car and is of outstanding quality at an affordable price. The technology it incorporates makes parking easier and delivers a higher level of comfort. Additionally, it improves the performance of auto systems like emergency braking and recognizes and warns the driver in case of any obstruction on the camera caused by ice, dirt, or rain. For levels 3 to 5 in autonomous driving, The Society of Automotive Engineers (SAE) requires on-the-road experience, which exhibits better 360-degree camera performance and system integration. Restraints - Security Concerns & Cybersecurity Cybersecurity poses a significant market restraint for the automotive Electronic Control Unit (ECU) market due to potential threats and vulnerabilities, data privacy concerns, regulatory compliance, reputation and trust, cost implications, and the rapidly evolving threat landscape. With increasing connectivity, ECUs are exposed to potential threats and vulnerabilities, which can compromise their functionality and endanger passenger safety. Data privacy concerns can deter consumers from adopting advanced ECUs, hampering market demand. Governments and regulatory bodies increasingly focus on cybersecurity in the automotive industry, requiring manufacturers to comply with rigorous testing, certification, and auditing processes. Implementing robust cybersecurity measures in ECUs can increase development and production costs, making ECUs more expensive and potentially limiting adoption in price-sensitive markets. The automotive cybersecurity market is growing with a CAGR of 19.97%, poised to reach $11 billion by 2030. Opportunities - Increasing Population Requirements, Increasing Awareness and Reduction of Global Warming, Virtual ECU, Robust Spending on The Research & Development of Automotive Ecus The expanded global production of automobiles to fulfill the expanding population's demands creates market revenue opportunities for the automotive ECU market. Electric Control unit demand is increasing due to the recognition of smart connectivity and initiatives to create cars more sustainably in the global automobile production market. Additionally, several governments providing beneficial initiatives to control traffic and ensure driver safety have driven the development of new generation vehicles. Driverless & semi-autonomous vehicles are becoming more and more common due to advantages such as increased safety, efficiency, and lower energy consumption, which is driving businesses to develop increasingly sophisticated electronic Control units. Automotive manufacturers need help in developing new ECUs due to resource costs, engineering workloads, and hardware damage. Engineers need to improve in prototype testing and nondeterministic hardware-in-loop simulations, resulting in more testing, time lost, and increased costs. This is particularly challenging considering the numerous ECUs in vehicles and legacy development methods. Virtual ECU provides a market opportunity for the automotive ECU market due to integration issues detection, scalable environment, reduced validation, stable testing, and hardware reuse. Virtual ECUs (vECU) are software functionality that can be executed without hardware, providing cost-effective testing in simulated environments. They evaluate software functionality and interaction with environmental and component models before using hardware prototypes, enabling developers to test their ECU software during development, ensuring its usability and viability. Governments worldwide are implementing several programs to increase road safety, including installing ADAS systems in passenger and heavy-duty vehicles and adaptive front lighting and anti-lock braking systems. For instance, the anti-lock braking system had to be integrated during the manufacturing process since Europe's new automobile assessment program, which went into effect in April 2020, was made to reduce road accidents. The demand for system-controlling devices is rising as safety systems are increasingly implemented; as a result, more automotive electronic Control units are being used to regulate these systems, driving the market's expansion. Additionally, consumers' increasing preference for luxury automobiles increases spending on automotive ECU research and development, which is anticipated to result in new growth opportunities for the market. Market Analysis Of Different Segments Covered in the Report Based on Application ADAS & Safety System Infotainment & Communication System Powertrain System Body Control & Comfort Systems Based on Propulsion Type Hybrid Vehicles BEVs ICE Vehicles Based on Level of Autonomous Driving Conventional Vehicles Autonomous Vehicles Semi-Autonomous Vehicles Based on Vehicle Type Agricultural Tractors Light-Duty Vehicles Construction & Mining Equipment Heavy Commercial Vehicles Regional Coverage Analysis Asia Pacific (South Korea, India, Japan, China, and the Rest of Asia Pacific) Europe (Germany, Spain, France, UK, and the Rest of Europe) North America (Canada, U.S., and Mexico) Rest of the World (Brazil, Iran, and Others) Application Type Analysis & Insights Based on the type of application, the market is segmented and ramified into powertrain, braking system, electronics, Advanced driver assistance systems, and communication. The ADAS sector now maintains the largest market share globally in the automotive electronic Control unit market due to the growing demand for cutting-edge driving-assistance technology in all vehicles. The demand for global Advanced Driver Assistance System (ADAS) Sensors Market size & share is expected to expand from USD 12,500 Million in 2020 to USD 37,125 Million by 2030, with a (CAGR) of 11.5 percent over the forecast period of 2021 to 2030. The major automakers' adoption of ADAS solutions through its installation into their cars to increase their safety ratings and gain customer penetration is further raising the requirement for ADAS safety systems and ADAS regulating automotive electronic Control units in the market. Propulsion Type Analysis & Insights By propulsion type, in 2020, the automotive electronic Control unit (ECU) market was worth over USD 88 billion, with battery electric vehicles accounting for a dominating revenue in the market. Significant demand for BEVs is seen in the automotive industry, driven by rising consumer awareness of the need for energy-efficient vehicles and government attempts to cut pollution. Europe has been a leader in adopting automobiles using alternative fuels and has the strongest government rules and programs. A growing market is anticipated for the hybrid car class, which is also gaining popularity quickly. The demand for these cars is fueled by their long driving range, improved fuel economy, and low emission levels. Level of Autonomous Driving Analysis & Insights By Level of Autonomous Driving, the automotive ecu market is classified into three groups based on the degree of autonomous driving: autonomous vehicles, semi-autonomous vehicles, and conventional vehicles. The market for autonomous vehicles holds the largest market share. In 2021, the market share for autonomous vehicles was worth over 20 billion dollars. The market is expected to expand in the next ten years, reaching around 85 billion dollars in 2030. Singapore scored 25.45 on an indicator measuring the level of preparedness for driverless vehicles as of 2020. Singapore surpassed the Netherlands, which had led the rating the year before, to take the top spot for the first time in 2020. Vehicle Type Analysis & Insights By vehicle type, the market for the automotive ECU is segmented based on vehicle type into light commercial vehicles, passenger cars, heavy commercial vehicles, and electric vehicles. Due to the large number of passenger automobiles on the road, the passenger automobile category holds the dominating share of the global automobile market. Throughout the projection period, the market for electric vehicles is also anticipated to experience exponential growth. Additionally, the expanding use of electric vehicles worldwide, millennials' growing need for safety features, and the growing demand for modern, safe, and comfortable driving experiences in future automobiles all contribute to the market expansion. Region Analysis & Insights By Region, the automotive electronic Control unit market share in the Asia Pacific region was worth $25.08 billion. Asia Pacific region controls the global market for the automotive electronic Control unit. During the anticipated period, it will continue to hold the dominant position because of the growing demand in the region. Passenger vehicle sales are driven by an increase in people's disposable income. Asia-Pacific will have the highest CAGR between 2021 and 2030, at 6.3 percent. According to a thorough study, the Asia Pacific automotive electronics control unit market is predicted to expand due to the increasing share from the automaker countries like China and India. According to a study, North America's automobile electronic Control units market share will continue to expand steadily as more conventional vehicles are integrated with safety and security features. The region's electric vehicle ECU market is anticipated to rise as more electronic systems are installed in light commercial vehicles and passenger automobiles. According to the study, the market for automotive electronic Control units will lead to significant expansion in Europe's market share. There are several luxury automobile manufacturers in the region, and their cars use a variety of cutting-edge technological components such as sensors and the implementation of augmented reality. It is anticipated to be the most important element driving the expansion of the Europe's market share. Automotive Electronic Control Unit Market Report Coverage Report Attribute Details Forecast Period 2021 - 2030 Market size value in 2021 USD 92.91 billion Revenue forecast in 2030 USD 151 billion Growth rate CAGR of 5.6 % The base year for estimation 2021 Historical data 2017 - 2020 Unit USD Billion, CAGR (2021 - 2030) Segmentation Market By Application, Market by Propulsion Type, Market by Level of Autonomous Driving, Market by Vehicle Type, Market by Region Market By Application ADAS & Safety System Infotainment & Communication System Powertrain System Body Control & Comfort Systems Market By Propulsion Type Hybrid Vehicles BEVs ICE Vehicles Market By Level of Autonomous Driving Conventional Vehicles Autonomous Vehicles Semi-Autonomous Vehicles Market By Vehicle Type Agricultural Tractors Light-Duty Vehicles Construction & Mining Equipment Heavy Commercial Vehicles Market By Region Asia Pacific (South Korea, India, Japan, China, and the Rest of Asia Pacific) Europe (Germany, Spain, France, UK, and the Rest of Europe) North America (Canada, U.S., and Mexico) Rest of the World (Brazil, Iran, and Others) Automotive Electronic Control Unit Market Competitive Landscape Analysis The market dynamics analysis sheds light on some key players in the market. Product innovation and continuous R&D efforts to provide sophisticated technologies have assisted the market's growth. Numerous well-known businesses sell vehicle ECUs, some of which are listed below: Continental Aptiv Bosch tesla Denso Siemens Mitsubishi Electric Hitachi Autoliv Ford Magneti Marelli S.p.A. Delco Delphi Sagem Hyundai Mobis Co. Ltd. Melco Hella KGaA Hueck & Co. Robert Bosch GmbH ZF Friedrichshafen AG Hella KGaA Hueck & Co. Panasonic Corporation Recent Developments: On January 2023, HL Klemove and Sonatus signed an MOU at the 2023 CES in Las Vegas to collaborate on developing next-gen automotive architecture technology for the upcoming Software Defined Vehicle (SDV) era. The partnership aims to accelerate the development of next-gen automotive architecture technologies, including Z-ECU, which integrates multiple electronic controllers into the vehicle's software-centered mobility solutions. Sonatus has successfully commercialized vehicle communication controls like the Central Communication Unit (CCU) and has a high-quality communication platform. According to the CEO of HL Klemove, the CCU debuted at CES as the first result of their partnership with Sonatus, and he added that creating the next-generation automotive architecture will ensure thorough readiness for the new paradigm. On September 2022, Renesas Electronics launched an integrated development environment for automotive ECUs containing multiple hardware devices. The platform supports co-simulation, debugging & tracing, high-speed simulation & distributed processing software over multiple SoCs and MCUs without hardware. This development environment reflects the automotive industry's shift towards Software First product development and the Shift Left software design approach. Development environment tools are now accessible for the R-Car S4 and RH850/U2A devices. The platform enables verification & application development before the production of devices and ECUs, realizing the Shift Left concept. On February 2023, Elektrobit launched the latest version of EB tresos 9, a software designed for car manufacturers and suppliers to develop advanced electronic control units (ECUs) based on the latest AUTOSAR standard. The latest update provides complete compatibility with AUTOSAR R20-11 and incorporates Argus CAN IDPS, a top-notch onboard intrusion detection capability created by Argus Cyber Security. According to industry experts, the proportion of production vehicles integrating ECUs utilizing AUTOSAR basic software is anticipated to attain 80% by 2027. The EB tresos 9 software facilitates the development of software features that adhere to the most recent security and safety standards, such as ISO/SAE 21434 for managing cyber security risks and SAE J1979-2 for diagnosing onboard emissions. The system performs traffic monitoring, threat detection, and provides preventive measures against common attack techniques. On January 2023, Nvidia Corp and Foxconn partnered to develop autonomous vehicle platforms. Foxconn will manufacture electronic control units (ECUs) for cars using Nvidia's DRIVE Orin chip for connected and autonomous vehicles. The ECUs will serve the global automotive market, with Nvidia aiming for a $300 billion market opportunity and reported revenue of $251 million in the third quarter. The partnership will allow Nvidia to scale efforts to meet the growing need for chips for autonomous & connected vehicles. Foxconn, which manufactures electric vehicles for Lordstown Motors Corp and Fisker's second car model, PEAR, and Apple products, will also manufacture ECUs for autonomous driving. On April 2023, TTTech Auto unveiled the N4 Network Controller, an ECU that boasts advanced networking capabilities and high-performance features, making it ideal for modern E/E architectures and software-defined vehicles. The N4 provides cybersecurity measures in compliance with ISO 21434 and functional safety capabilities up to ASIL B by ISO 26262. The N4 facilitates enhanced collaboration among vehicle domains and manages intricate functions, thereby expediting vehicle development and conserving time and resources. On March 2023, Marelli Motorsport, in partnership with Dorna, introduced the BAZ-340 ECU. This new electronic control unit boosts computational power and data management 10 times compared to the previous ECU. This device is designed to support the introduction of sustainable fuels and carbon neutrality at MotoGP. The BAZ-340 ECU is designed to provide high-level control of the race through real-time data collection, computation, analysis, and transmission capabilities. It features a powerful integrated data logger and a wide range of input/output lines and protocols, allowing for unrivaled results in data acquisition, analysis, efficiency, and safety. The Danger Light introduction allows Race Direction to react to a rider's fall, turning onboard lights on and taking other actions to ensure safety. The ECU also offers a customizable dual voltage supply, 12 and 24 V, reducing energy dissipation and increasing global system efficiency beyond the ECU itself. The Top Manufacturers of The Market Make a Variety of Devices, Including Name Feature Key Player Drivetrain The drivetrain, also sometimes spelled "drive train" or occasionally "drive-train," is the system of parts in a motor vehicle that transmits power to the drive wheels. This does not include the power-generating engine or motor. Continental Denso Wave A division of Denso, Denso Wave manufactures programmable logic controllers, industrial robots, and solutions for automatic identification, including barcode readers and associated items. They are renowned for developing the two-dimensional QR code, a supporter of the ORiN standard, and a member of the Japan Robot Association. Denso Stereo Camera A stereo camera is a 3D external identification sensor that uses stereoscopic processing to quickly determine the size, location, and motion of various 3D objects. It is capable of precisely detecting lane distinctions like white and yellow lines. Additionally, stereo cameras can assist in braking, lessening crash damage, and improving distance control. Hitachi Frequently Asked Question About This Report How big is the automotive electronic control unit market? The global automotive electronic control unit market size was $92.91 billion in 2021 and is expected to reach a value of $151 billion by 2030. What is the automotive electronic control unit market growth? The global automotive electronic control unit market is expected to grow at a compound annual growth rate (CAGR) of 5.6% from 2021 to 2030 to reach USD 151 billion by 2030. Who are the leading companies in the market for automotive electronic Control units? The companies listed below are leading automotive ECUs companies. Some companies include Continental, Bosch, Aptiv, Denso, Autoliv, Mitsubishi Electric, Ford, Siemens, Delco, Delphi, Sagem, Melcoand, and Hitachi. 4. Which region is leading the market share for automotive electronic control units? Over the forecasted period (2020 to 2030), Asia-Pacific will experience the greatest CAGR of 6.5 percent. 6. What kinds of electronic control units exist in the automotive industry? Unique capability ECUs with bit sizes of 16-bit ECU, 32-bit ECU, and 64-bit ECU are available and used in the automotive sector. What are the market dynamics for automobile electronic control units? The market for automotive electronic control units is expanding due to the rising demand for high-end vehicles and technological advancements in the automotive ECU industry. Other factors propelling the automotive electronic Control unit market expansion include government initiatives to lower fuel consumption and increased consumer desire for vehicles with better gas mileage. Sources https://www.autocarpro.in/news-international/hyundai-reveals-second-gen-kona-electric-with-490km-range-114341 https://embeddedcomputing.com/application/automotive/tarchitectures https://economictimes.indiatimes.com/tech/technology/nvidia-foxconn-to-build-autonomous-vehicle-platforms/articleshow/96733449.cms https://www.prnewswire.com/news-releases/.html https://finance.yahoo.com/news/renesas-launches-integrated-development-environment-120000259.html https://www.geospatialworld.net/news/hl-klemove-sonatus-automotive-architecture-technology/ https://blogs.synopsys.com/from-silicon-to-software/2021/11/29/virtual-electronic-control-units/ https://www.micronova.de/en/testing/consulting-services/virtual-ecu.html https://www.cyient.com/blog/virtual-ecu-validation-validating-software-without-hardware-prototypes https://semiengineering.com/accelerating-development-of-software-defined-vehicles-with-virtual-ecus/ https://www.mdpi.com/1424-8220/22/17/6679 https://energy5.com/understanding-the-role-of-the-ecu-in-an-electric-vehicle https://www.emobility-engineering.com/focus-ecus/ https://about.bnef.com/blog/electric-vehicles-accelerate-54-new-car-sales-2040/ https://en.wikipedia.org/wiki/Electronic_control_unit https://www.ecutesting.com/categories/ecu-explained/ https://www.researchgate.net/publication/317179920IoV 1. Introduction 1.1. Study Objective 1.2. Market Definition 1.3. Study Scope 1.3.1. Markets Covered 1.3.2. Geographic Scope 1.3.3. Years Considered 1.3.4. Stakeholders 2. Research Methodology 2.1. Data Procurement 2.2. Paid Database 2.2.1. Secondary Data 2.2.1.1. Key Secondary sources 2.2.2. Primary Data 2.2.2.1 Primary sources 2.2.2.2. Key industry insights 2.2.2.3. Primary interviews with experts 2.2.2.4. Key primary respondent list 2.3. Market Size Estimation 2.4. Bottom-Up and Top-Down Approaches 2.4.1. Bottom-Up Approach 2.4.1.1. Approach for arriving at market size by bottom-up analysis 2.4.2. Top-Down Approach 2.4.2.1. Approach for Capturing Market Size by Top-Down Analysis 2.5. Market Breakdown and Data Triangulation 2.6. Research Methodology 2.7. Risk Assessment 3. Executive Summary 3.1 Automotive Electronic Control Unit Market: Post-Covid-19 3.1.1 Actual Scenario 3.1.2 Pessimistic Scenario 3.1.3 Optimistic Scenario 3.1.4 Market Summary 4. Industry Outlook 4.1 Market Snapshot 4.2 Automotive Electronic Control Unit Market 4.2.1 market, 2021 – 2030 (USD Million) 4.3 Regional Business Analysis 4.3.1 market, by region, 2021 - 2030 (USD Million) 4.4 By Vehicle Type Business Analysis 4.4.1 market, By Vehicle Type, 2021 - 2030 (USD Million) 4.5 By Level of Autonomous Driving Business Analysis 4.5.1 market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 4.6 Propulsion Type Business Analysis 4.6.1 market, By Propulsion Type, 2021 - 2030 (USD Million) 4.7 Application Business Analysis 4.7.1 market, By Application, 2021 - 2030 (USD Million) 4.8 Value Chain Analysis 4.9 Market Variable Analysis 4.9.1 Market Drivers Analysis 4.9.2 Market Restraints Analysis 4.10 Business Environment Analysis Tool 4.10.1 market PEST analysis 4.10.2 market Porter’s analysis 4.11 Penetration & Growth Prospect Mapping 5. Market Dynamics 5.1. Introduction 5.2. Market Dynamics 5.2.1. Drivers 5.2.2. Restraints 5.2.3. Opportunities 5.2.4. Challenges 5.3. Impact of Covid-19 On Market 5.4. Value Chain Analysis 5.5. Ecosystem 5.6. Patent Analysis 5.7. Trade Analysis 5.8. Tariff Analysis 5.9. Case Study Analysis 5.10. Porter’s Five Forces Analysis 5.10.1 Threat of New Entrants 5.10.2 Threat of Substitutes 5.10.3 Bargaining Power of Buyers 5.10.4 Bargaining Power of Suppliers 5.10.5 Degree of Competition 5.11. Application Analysis 5.11.1. Trends in Application (2014-2020) 5.11.2. Trends in Application (2021-2028) 5.12. Pricing Analysis 5.12.1. Average Price Trend Analysis (By Region, By Country) 6. Competitive & Vendor Landscape 6.1. Company Market Share Analysis 6.2. Manufacturers Manufacturing Sites, Area Served, Vehicle Type 6.3. Market Competitive Situation and Trends 6.4. Manufacturers Mergers & Acquisitions, Expansion Plans 7. Market: By Vehicle Type Segment Analysis 7.1. Introduction 7.2. Sales Volume & Revenue Analysis (2021-2030) 7.3. Agricultural Tractors 7.3.1. Agricultural Tractors market, 2021 - 2030 (USD Million) 7.4. Light-Duty Vehicles 7.4.1. Light-Duty Vehicles market, 2021 - 2030 (USD Million) 7.5. Construction & Mining Equipment Market, 2021 - 2030 (USD Million) 7.5.1. Construction & Mining Equipment Market, 2021 - 2030 (USD Million) 7.6. Heavy Commercial Vehicles market, 2021 - 2030 (USD Million) 7.6.1. Heavy Commercial Vehicles market, 2021 - 2030 (USD Million) 8. Market: By Level of Autonomous Driving Segment Analysis 8.1. Introduction 8.2. Sales Volume & Revenue Analysis (2021-2030) 8.3. Conventional Vehicles 8.3.1. Conventional Vehicles Market, 2021 - 2030 (USD Million) 8.4. Autonomous Vehicles 8.4.1. Autonomous Vehicles market, 2021 - 2030 (USD Million) 85. Semi-Autonomous Vehicles 8.5.1. Semi-Autonomous Vehicles market, 2021 - 2030 (USD Million) 9. Market: By Propulsion Type Segment Analysis 9.1. Introduction 9.2. Sales Volume & Revenue Analysis (2021-2030) 9.3. Hybrid Vehicles 9.3.1. Hybrid Vehicles market, 2021 - 2030 (USD Million) 9.4. BEVs 9.4.1. BEVs market, 2021 - 2030 (USD Million) 9.5. ICE Vehicles 9.5.1. ICE Vehicles market, 2021 - 2030 (USD Million) 10. Market: By Application Segment Analysis 10.1. Introduction 10.2. Sales Volume & Revenue Analysis (2021-2030) 10.3. ADAS & Safety System 10.3.1. ADAS & Safety System market, 2021 - 2030 (USD Million) 10.4. Infotainment & Communication System 10.4.1. Infotainment & Communication System market, 2021 - 2030 (USD Million) 10.5. Powertrain System 10.5.1. Powertrain System Market, 2021 - 2030 (USD Million) 10.6. Body Control & Comfort Systems 10.6.1. Body Control & Comfort Systems Market, 2021 - 2030 (USD Million) 11. Market: Regional Outlook 11.1 North America 11.1.1. North America market, By Vehicle Type, 2021 - 2030 (USD Million) 11.1.2. North America market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.1.3. North America market, by Application, 2021 - 2030 (USD Million) 11.1.4. North America market, by Country, 2021 - 2030 (USD Million) 11.1.5. North America market, By Type, 2021 - 2030 (USD Million) 11.1.4.1. U.S. 11.1.4.1.1. U.S. market, By Vehicle Type, 2021 - 2030 (USD Million) 11.1.4.1.2. U.S. market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.1.4.1.3. U.S. market, by Application, 2021 - 2030 (USD Million) 11.1.4.2. Canada 11.1.4.2.1. Canada market, By Vehicle Type, 2021 - 2030 (USD Million) 11.1.4.2.2. Canada market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.1.4.2.3. Canada market, by Application, 2021 - 2030 (USD Million) 11.2. Europe 11.2.1. Europe market, By Vehicle Type, 2021 - 2030 (USD Million) 11.2.2. Europe market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.2.3. Europe market, by Application, 2021 - 2030 (USD Million) 11.2.4. Europe market, by country, 2021 - 2030 (USD Million) 11.2.5. Europe market, By Type, 2021 - 2030 (USD Million) 11.2.4.1 U.K. 11.2.4.1.1. U.K. market, By Vehicle Type, 2021 - 2030 (USD Million) 11.2.4.1.2. U.K. market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.2.4.1.3. U.K. market, by Application, 2021 - 2030 (USD Million) 11.2.4.2. Germany 11.2.4.2.1. Germany market, By Vehicle Type, 2021 - 2030 (USD Million) 11.2.4.2.2. Germany market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.2.4.2.3. Germany market, by Application, 2021 - 2030 (USD Million) 11.2.4.3. France 11.2.4.3.1. France market, By Vehicle Type, 2021 - 2030 (USD Million) 11.2.4.3.2. France market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.2.4.3.3. France market, by Application, 2021 - 2030 (USD Million) 11.2.4.4. Rest of Europe 11.2.4.4.1. Rest of Europe market, By Vehicle Type, 2021 - 2030 (USD Million) 11.2.4.4.2. Rest of Europe market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.2.4.4.3. Rest of Europe market, by Application, 2021 - 2030 (USD Million) 11.3. Asia Pacific 11.3.1. Asia Pacific market, By Vehicle Type, 2021 - 2030 (USD Million) 11.3.2. Asia Pacific market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.3.3. Asia Pacific market, by Application, 2021 - 2030 (USD Million) 11.3.4. Asia Pacific market, by country, 2021 - 2030 (USD Million) 11.3.5. Asia Pacific market, By Type, 2021 - 2030 (USD Million) 11.3.4.1. China 11.3.4.1.1. China market, By Vehicle Type, 2021 - 2030 (USD Million) 11.3.4.1.2. China market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.3.4.1.3. China market, by Application, 2021 - 2030 (USD Million) 11.3.4.2. India 11.3.4.2.1. India market, By Vehicle Type, 2021 - 2030 (USD Million) 11.3.4.2.2. India market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.3.4.2.3. India market, by Application, 2021 - 2030 (USD Million) 11.3.4.3. Japan 11.3.4.3.1. Japan market, By Vehicle Type, 2021 - 2030 (USD Million) 11.3.4.3.2. Japan market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.3.4.3.3. Japan market, by Application, 2021 - 2030 (USD Million) 11.3.4.4. South Korea 11.3.4.4.1. South Korea market, By Vehicle Type, 2021 - 2030 (USD Million) 11.3.4.4.2. South Korea market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.3.4.4.3. South Korea market, by Application, 2021 - 2030 (USD Million) 11.3.4.5. Rest of ASIA PACIFIC 11.3.4.5.1. Rest of ASIA PACIFIC market, By Vehicle Type, 2021 - 2030 (USD Million) 11.3.4.5.2. Rest of ASIA PACIFIC market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.3.4.5.3. Rest of ASIA PACIFIC market, by Application, 2021 - 2030 (USD Million) 11.4. Latin America 11.4.1. Latin America market, By Vehicle Type, 2021 - 2030 (USD Million) 11.4.2. Latin America market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.4.3. Latin America market, by Application, 2021 - 2030 (USD Million) 11.4.4. Latin America market, by country, 2021 - 2030 (USD Million) 11.4.5. Latin America market, By Type, 2021 - 2030 (USD Million) 11.4.4.1. Brazil 11.4.4.1.1. Brazil market, By Vehicle Type, 2021 - 2030 (USD Million) 11.4.4.1.2. Brazil market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.4.4.1.3. Brazil market, by Application, 2021 - 2030 (USD Million) 11.4.4.2. Mexico 11.4.4.2.1. Mexico market, By Vehicle Type, 2021 - 2030 (USD Million) 11.4.4.2.2. Mexico market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.4.4.2.3. Mexico market, by Application, 2021 - 2030 (USD Million) 11.4.4.3. Rest of Latin America 11.4.4.3.1. Rest of the Latin America market, By Vehicle Type, 2021 - 2030 (USD Million) 11.4.4.3.2. Rest of the Latin America market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.4.4.3.3. Rest of the Latin America market, by Application, 2021 - 2030 (USD Million) 11.5. MEA 11.5.1. MEA market, By Vehicle Type, 2021 - 2030 (USD Million) 11.5.2. MEA market, By Level of Autonomous Driving, 2021 - 2030 (USD Million) 11.5.3. MEA market, by Application, 2021 - 2030 (USD Million) 11.5.4. MEA market, by region, 2021 - 2030 (USD Million) 11.5.5. MEA market, By Type, 2021 - 2030 (USD Million) 12. Competitive Landscape 12.1 CONTINENTAL 12.1.1. Company overview 12.1.2. Financial performance 12.1.3. Solutions Portfolio Analysis 12.1.4. Business Strategy & Recent Development 12.2. Aptiv 12.2.1. Company overview 12.2.2. Financial performance 12.2.3. Solutions Portfolio Analysis 12.2.4. Business Strategy & Recent Development 12.3. Bosch 12.3.1. Company overview 12.3.2. Financial performance 12.3.3. Solutions Portfolio Analysis 12.3.4. Business Strategy & Recent Development 12.4. TESLA 12.4.1. Company overview 12.4.2. Financial performance 12.4.3. Solutions Portfolio Analysis 12.4.4. Business Strategy & Recent Development 12.5. Denso 12.5.1. Company overview 12.5.2. Financial performance 12.5.3. Solutions Portfolio Analysis 12.5.4. Business Strategy & Recent Development 12.6. Siemens 12.6.1. Company overview 12.6.2. Financial performance 12.6.3. Solutions Portfolio Analysis 12.6.4. Business Strategy & Recent Development 12.7. MITSUBISHI ELECTRIC 12.7.1. Company overview 12.7.2. Financial performance 12.7.3. Solutions Portfolio Analysis 12.7.4. Business Strategy & Recent Development 12.8. HITACHI 12.8.1. Company overview 12.8.2. Financial performance 12.8.3. Solutions Portfolio Analysis 12.8.4. Business Strategy & Recent Development 12.9. Autoliv 12.9.1. Company overview 12.9.2. Financial performance 12.9.3. Solutions Portfolio Analysis 12.9.4. Business Strategy & Recent Development 12.10. Ford 12.10.1. Company overview 12.10.2. Financial performance 12.10.3. Solutions Portfolio Analysis 12.10.4. Business Strategy & Recent Development 12.11. Magneti Marelli S.p.A. 12.11.1. Company overview 12.11.2. Financial performance 12.11.3. Solutions Portfolio Analysis 12.11.4. Business Strategy & Recent Development 12.12. Delco 12.12.1. Company overview 12.12.2. Financial performance 12.12.3. Solutions Portfolio Analysis 12.12.4. Business Strategy & Recent Development 12.13. Delphi 12.13.1. Company overview 12.13.2. Financial performance 12.13.3. Solutions Portfolio Analysis 12.13.4. Business Strategy & Recent Development 12.14. SAGEM 12.14.1. Company overview 12.14.2. Financial performance 12.14.3. Solutions Portfolio Analysis 12.14.4. Business Strategy & Recent Development 12.15. Hyundai Mobis Co. Ltd. 12.15.1. Company overview 12.15.2. Financial performance 12.15.3. Solutions Portfolio Analysis 12.15.4. Business Strategy & Recent Development 12.16. Melco 12.16.1. Company overview 12.16.2. Financial performance 12.16.3. Solutions Portfolio Analysis 12.16.4. Business Strategy & Recent Development 12.17. Hella KGaA Hueck & Co. 12.17.1. Company overview 12.17.2. Financial performance 12.17.3. Solutions Portfolio Analysis 12.17.4. Business Strategy & Recent Development 12.18. Robert Bosch GmbH 12.18.1. Company overview 12.18.2. Financial performance 12.18.3. Solutions Portfolio Analysis 12.18.4. Business Strategy & Recent Development 12.19. ZF FRIEDRICHSHAFEN AG 12.19.1. Company overview 12.19.2. Financial performance 12.19.3. Solutions Portfolio Analysis 12.19.4. Business Strategy & Recent Development 12.20. Hella KGaA Hueck & Co. 12.20.1. Company overview 12.20.2. Financial performance 12.20.3. Solutions Portfolio Analysis 12.20.4. Business Strategy & Recent Development 12.21. PANASONIC CORPORATION 12.21.1. Company overview 12.21.2. Financial performance 12.21.3. Solutions Portfolio Analysis 12.21.4. Business Strategy & Recent Development List of Tables (76 Tables) TABLE 1. MARKET, By Vehicle Type, 2021-2030 (USD Million) TABLE 2. MARKET FOR Agricultural Tractors, BY REGION, 2021-2030 (USD Million) TABLE 3. MARKET FOR Light-Duty Vehicles, BY REGION, 2021-2030 (USD Million) TABLE 4. MARKET FOR Construction & Mining Equipment, BY REGION, 2021-2030 (USD Million) TABLE 5. MARKET FOR Heavy Commercial Vehicles, BY REGION, 2021-2030 (USD Million) TABLE 7. MARKET, By Level of Autonomous Driving, 2021-2030 (USD Million) TABLE 8. MARKET FOR Conventional Vehicles, BY REGION, 2021-2030 (USD Million) TABLE 9. MARKET FOR Autonomous Vehicles, BY REGION, 2021-2030 (USD Million) TABLE 10. MARKET FOR Semi-Autonomous Vehicles, BY REGION, 2021-2030 (USD Million) TABLE 11. MARKET, BY APPLICATION, 2021-2030 (USD Million) TABLE 12. MARKET FOR ADAS & Safety System, BY REGION, 2021-2030 (USD Million) TABLE 13. MARKET FOR Infotainment & Communication System, BY REGION, 2021-2030 (USD Million) TABLE 14. MARKET FOR Powertrain System, BY REGION, 2021-2030 (USD Million) TABLE15. MARKET FOR Hybrid Vehicles, BY REGION, 2021-2030 (USD Million) TABLE 16. MARKET, By BEVs, 2021-2030 (USD Million) TABLE 17. MARKET FOR ICE Vehicles, BY REGION, 2021-2030 (USD Million) TABLE 18. MARKET, BY REGION, 2021-2030 (USD Million) TABLE 19. NORTH AMERICA MARKET, BY COUNTRY, 2021-2030 (USD Million) TABLE 20. NORTH AMERICA MARKET, By Vehicle Type, 2021-2030 (USD Million) TABLE 21. NORTH AMERICA MARKET, By Level of Autonomous Driving, 2021-2030 (USD Million) TABLE 22. NORTH AMERICA MARKET, BY APPLICATION, 2021-2030 (USD Million) TABLE 23. EUROPE MARKET, BY COUNTRY, 2021-2030 (USD Million) TABLE 24. EUROPE MARKET, By Vehicle Type, 2021-2030 (USD Million) TABLE 25. EUROPE MARKET, By Level of Autonomous Driving, 2021-2030 (USD Million) TABLE 26. EUROPE MARKET, BY APPLICATION, 2021-2030 (USD Million) TABLE 27. ASIA-PACIFIC MARKET, BY COUNTRY, 2021-2030 (USD Million) TABLE 28. ASIA-PACIFIC MARKET, By Vehicle Type, 2021-2030 (USD Million) TABLE 29. ASIA-PACIFIC MARKET, By Level of Autonomous Driving, 2021-2030 (USD Million) TABLE 30. ASIA-PACIFIC MARKET, BY APPLICATION, 2021-2030 (USD Million) TABLE 31. LAMEA MARKET, BY COUNTRY, 2021-2030 (USD Million) TABLE 32. LAMEA MARKET, By Vehicle Type, 2021-2030 (USD Million) TABLE 33. LAMEA MARKET, By Propulsion Type, 2021-2030 (USD Million) TABLE 34. LAMEA MARKET, BY APPLICATION, 2021-2030 (USD Million) TABLE 35. CONTINENTAL: COMPANY SNAPSHOT TABLE 36. CONTINENTAL: OPERATING SEGMENTS TABLE 37. Aptiv: COMPANY SNAPSHOT TABLE 38. Aptiv: OPERATING SEGMENTS TABLE 39. Bosch: COMPANY SNAPSHOT TABLE 40. Bosch: OPERATING SEGMENTS TABLE 41. TESLA: COMPANY SNAPSHOT TABLE 42. TESLA: OPERATING SEGMENTS TABLE 43. Denso: COMPANY SNAPSHOT TABLE 44. Denso: OPERATING SEGMENTS TABLE 45. Siemens: COMPANY SNAPSHOT TABLE 46. Siemens: OPERATING SEGMENTS TABLE 47. MITSUBISHI ELECTRIC: COMPANY SNAPSHOT TABLE 48. MITSUBISHI ELECTRIC: OPERATING SEGMENTS TABLE 49. HITACHI: COMPANY SNAPSHOT TABLE 50. HITACHI: OPERATING SEGMENTS TABLE 51. Autoliv: COMPANY SNAPSHOT TABLE 52. Autoliv: OPERATING SEGMENTS TABLE 53. Ford: COMPANY SNAPSHOT TABLE 54. Ford: OPERATING SEGMENTS TABLE 55. Magneti Marelli S.p.A.: COMPANY SNAPSHOT TABLE 56. Magneti Marelli S.p.A.: OPERATING SEGMENTS TABLE 57. Delco: COMPANY SNAPSHOT TABLE 58. Delco: OPERATING SEGMENTS TABLE 59. Delphi: COMPANY SNAPSHOT TABLE 60. Delphi: OPERATING SEGMENTS TABLE 61. SAGEM: COMPANY SNAPSHOT TABLE 62. SAGEM: OPERATING SEGMENTS TABLE 63. Hyundai Mobis Co. Ltd.: COMPANY SNAPSHOT TABLE 64. Hyundai Mobis Co. Ltd.: OPERATING SEGMENTS TABLE 65. Melco: COMPANY SNAPSHOT TABLE 66. Melco: OPERATING SEGMENTS TABLE 67. Hella KGaA Hueck & Co.: COMPANY SNAPSHOT TABLE 68. Hella KGaA Hueck & Co.: OPERATING SEGMENTS TABLE 69. Robert Bosch GmbH: COMPANY SNAPSHOT TABLE 70. Robert Bosch GmbH: OPERATING SEGMENTS TABLE 71. ZF FRIEDRICHSHAFEN AG: COMPANY SNAPSHOT TABLE 72. ZF FRIEDRICHSHAFEN AG: OPERATING SEGMENTS TABLE 73. Hella KGaA Hueck & Co.: COMPANY SNAPSHOT TABLE 74. Hella KGaA Hueck & Co.: OPERATING SEGMENTS TABLE 75. PANASONIC CORPORATION: COMPANY SNAPSHOT TABLE 76. PANASONIC CORPORATION: OPERATING SEGMENTS List of Figures (22 Figures) Figure 1 Market: Research Methodology Steps Figure 2 Research Design Figure 3 Breakdown of Primaries: Market Figure 4 Research Methodology: Hypothesis Building Figure 5 Market: Vehicle Type-Based Estimation Figure 6 Top 21 Companies with Highest No. Of Patent in Last 9 Years Figure 7 No. Of Patents Granted Per Year, 2019–2020 Figure 8 Import Data for Automotive Electronic Control Unit, By Country, 2016–2020 (USD Thousand) Figure 9 Export Data for Automotive Electronic Control Unit, By Country, 2016–2020 (USD Thousand) Figure 10 Data Triangulation Methodology Figure 11 Market, By Level of Autonomous Driving, 2019 vs. 2025 (USD Million) Figure 12 Market Share, By Application, 2019 vs. 2025 (USD Million) Figure 13 Market Share, By Vehicle Type, 2019 vs. 2025 (USD Million) Figure 14 Market Share, By Propulsion Type, 2019 vs. 2025 (USD Million) Figure 15 Geographical Snapshot of the Market Figure 16 ADAS & Safety System to Witness Higher CAGR in the Market for Application Segment during the Forecast Period. Figure 17 Battery electric vehicles to Witness Higher CAGR in Market for Propulsion Type Driving during Forecast Period. Figure 17 Autonomous Vehicles to Witness Higher CAGR in Market for Level of Autonomous Driving Driving during Forecast Period. Figure 17 Light-Duty Vehicles Vehicles to Witness Higher CAGR in Market for Vehicle Type Driving during Forecast Period. Figure 18 North America Accounted for the Largest Share of the Market, By Regional Basis, in 2019 Figure 19 Market: Drivers, Restraints, Opportunities, and Challenges Figure 20 North America: Market Snapshot Figure 21 Asia Pacific: Market Snapshot Figure 22 Vendor Dive: Evaluation Overview