Automotive Event Data Recorder (EDR) Market
By Component;
Hardware -[Event Data Recorder Unit, Sensors-(Accelerometers, Gyroscopes, Speed Sensors, Brake Sensors and Airbag Deployment Sensors), Storage Devices and Power Supply Units] and Software -[Data Analysis Software, Data Retrieval Software and Cloud-Based Platform]By Vehicle;
Passenger Vehicles, Commercial Vehicles, Electric Vehicles and OthersBy Sales Channel;
OEM and AftermarketBy Geography;
North America, Europe, Asia Pacific, Middle East & Africa and Latin America - Report Timeline (2021 - 2031)Automotive Event Data Recorder (EDR) Market Overview
Automotive Event Data Recorder (EDR) Market (USD Million)
In the year 2023, the Automotive Event Data Recorder (EDR) Market was valued at USD 5,828.14 million. The size of this market is expected to increase to USD 7,931.29 million by the year 2030, while growing at a Compounded Annual Growth Rate (CAGR) of 4.5%.
Automotive Event Data Recorder (EDR) Market
*Market size in USD million
CAGR 4.5 %
| Study Period | 2025 - 2031 | 
|---|---|
| Base Year | 2024 | 
| CAGR (%) | 4.5 % | 
| Market Size (2024) | USD 6,090.40 Million | 
| Market Size (2031) | USD 8,288.20 Million | 
| Market Concentration | High | 
| Report Pages | 348 | 
Major Players
- Continental
- Papago
- Philips
- HP
- Garmin
- Cansonic
- Auto-vox
- Samsung-anywhere
Market Concentration
Consolidated - Market dominated by 1 - 5 major players
Automotive Event Data Recorder (EDR) Market
Fragmented - Highly competitive market without dominant players
The Automotive Event Data Recorder (EDR) Market is witnessing rapid growth as demand for vehicle safety, crash investigation, and regulatory compliance intensifies. These systems capture crucial metrics like vehicle speed, braking activity, and restraint usage during collisions, making them indispensable for accident assessments. Currently, nearly 65% of newly produced vehicles incorporate some form of event data recording, showcasing the technology’s rising penetration.
Key Drivers of Growth
The push for road safety improvements and transparent crash analysis is a major factor encouraging EDR adoption. Regulatory requirements have pushed adoption rates to almost 55% among leading automakers, ensuring consistent crash reporting standards. By delivering reliable and unbiased data, EDRs have become vital for automotive manufacturers and insurance providers alike.
Technological Progress
Advancements in sensor technology, diagnostics, and connected vehicle systems are reshaping the capabilities of EDRs. Compared to early versions, current models can log up to 70% more crash-related parameters, creating a more comprehensive view of accident scenarios. This enhanced functionality also supports the development of autonomous driving technologies and advanced driver-assistance systems.
Industry Applications
Beyond regulations, EDRs deliver practical benefits for insurance claims validation, driver monitoring, and fleet operations. Data-backed insights have improved claims accuracy by close to 40%, reducing disputes and expediting claim settlements. Fleet operators increasingly rely on these systems to cut liability exposure and promote driver performance improvements.
Automotive Event Data Recorder (EDR) Market Key Takeaways
-  The automotive event data recorder (EDR) market is witnessing strong growth as vehicle safety, accident analysis, and regulatory compliance become central to modern automotive design. The increasing installation of electronic control systems and advanced driver-assistance features is driving widespread EDR adoption across vehicle categories. 
-  Growing emphasis on road safety regulations and the need for accurate crash investigation data are key factors propelling market demand. EDRs provide detailed insights into pre- and post-collision vehicle dynamics, helping improve vehicle design, liability assessment, and insurance claim processing. 
-  The transition toward connected and autonomous vehicles is amplifying the importance of data recording systems for real-time diagnostics and legal transparency. EDRs play a crucial role in capturing information from multiple sensors and control units for post-event analysis and algorithm validation. 
-  North America and Europe dominate the market due to stringent regulatory mandates requiring EDR integration in new vehicles. Meanwhile, the Asia-Pacific region is emerging as a key growth hub as governments and automakers prioritize safety compliance and connected mobility infrastructure. 
-  Advancements in solid-state memory technology, data encryption, and telematics integration are improving storage reliability and data security. These developments ensure that recorded data remains tamper-proof and accessible for authorized stakeholders such as law enforcement and insurers. 
-  Despite positive outlook, the market faces challenges concerning data privacy, cybersecurity risks, and standardization of data formats across different OEMs. Addressing these concerns is critical for ensuring consumer trust and regulatory harmonization in global markets. 
-  Leading manufacturers are focusing on collaboration with OEMs, cloud analytics providers, and telematics service firms to develop next-generation EDR platforms. Integration with vehicle-to-everything (V2X) communication systems and AI-based crash analytics is expected to redefine the scope of vehicle data recording in the coming years. 
Automotive Event Data Recorder (EDR) Market Recent Developments
-  In December 2020, Harman International enhanced its infotainment systems by integrating EDR (Event Data Recorder) capabilities, enabling automatic data capture during critical events to improve vehicle safety and diagnostic insights. 
-  In June 2023, Valeo acquired a telematics company specializing in event data recording (EDR) technologies to expand its automotive technology portfolio. 
Automotive Event Data Recorder (EDR) Market Segment Analysis
In this report, the Automotive Event Data Recorder (EDR) Market has been segmented by Component, Vehicle, Sales Channel and Geography.
Automotive Event Data Recorder (EDR) Market, Segmentation by Component
The Component landscape separates the market into Hardware and Software, reflecting how value accrues from embedded electronics and post-crash analytics. OEM programs are aligning sensor architectures with regulatory compliance and forensic data integrity, while software stacks emphasize data retrieval, analytics automation, and secure cloud workflows. Partnerships between Tier-1 suppliers and software firms are expanding interoperability, improving evidence handling, and supporting future ADAS/autonomous feature validation across global regions.
Hardware
Hardware covers the physical layer of EDR systems—robust recording units, precision sensors, and reliable storage and power components. Automakers prioritize accuracy, resilience to impact, and tamper resistance, ensuring datasets meet investigative and insurance-grade standards. Design roadmaps focus on tighter sensor fusion, extended memory endurance, and power stability to capture high-fidelity streams during critical milliseconds.
-  Event Data Recorder Unit The core EDR unit orchestrates trigger logic, time stamping, and secure logging of high-rate signals. Emphasis is on non-volatile retention, post-crash survivability, and authenticated interfaces for downstream tools. Vendors differentiate via form-factor optimization, encrypted data buses, and compliance-ready firmware supporting multi-vehicle platforms. 
-  Sensors The Sensors group provides the kinematic and event-state inputs essential for reconstruction. Integration strategies balance sampling rate, dynamic range, and diagnostic self-checks to ensure evidentiary quality. Collaborations with ADAS teams help align thresholds and synchronization across the vehicle domain controller for consistent crash telemetry. -  Accelerometers Accelerometers capture longitudinal and lateral impulses critical to identifying impact severity and timing. Suppliers focus on shock survivability, low noise, and temperature stability to maintain fidelity during extreme events. Calibration and self-test features support repeatable, litigation-ready datasets. 
-  Gyroscopes Gyroscopes measure angular rates to map vehicle rotation, aiding yaw/roll analysis and stability control correlation. Designs emphasize bias drift control, cross-axis sensitivity, and robust sensor fusion with accelerometers for accurate trajectory modeling. This improves accident reconstruction and system validation. 
-  Speed Sensors Speed sensors provide wheel or vehicle speed inputs that contextualize braking, throttle, and stability system behavior. Reliability in harsh environments and signal integrity across high-EMI conditions are key differentiators. Integration with CAN/Ethernet networks supports synchronized logging. 
-  Brake Sensors Brake sensors record pedal application and hydraulic state, linking driver intent to deceleration profiles. OEMs require precise timestamping, diagnostics, and redundancy to verify system responses. These signals are pivotal in assessing ADAS intervention effectiveness and liability. 
-  Airbag Deployment Sensors Airbag deployment sensors confirm trigger events and deployment timing for occupant protection analysis. The data corroborates threshold logic, impact vectors, and module health at the moment of crash. High robustness and post-event readability ensure evidentiary completeness. 
 
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-  Storage Devices Storage devices safeguard multi-channel data with endurance against shock, vibration, and thermal stress. Automotive-grade flash and controller firmware emphasize write integrity, wear leveling, and secure data retention. Suppliers compete on capacity scaling and readout speed for rapid investigations. 
-  Power Supply Units Power supply units maintain continuous logging across transients and crash-induced voltage drops. Designs feature backup energy, isolation, and surge protection to preserve recording integrity. This ensures critical pre- and post-event windows remain intact for reconstruction. 
Software
Software layers convert raw logs into actionable insights for safety engineers, insurers, and legal teams. Priorities include intuitive retrieval, automated reporting, data governance, and secure sharing across stakeholders. Vendors leverage cloud analytics, standardized file formats, and API-first designs to streamline workflows and multi-jurisdictional compliance.
-  Data Analysis Software Data analysis software reconstructs events with timelines, charts, and kinematic modeling. Toolchains emphasize repeatability, configurable thresholds, and audit trails to withstand scrutiny. Integration with simulation and PLM systems accelerates safety loops and design improvements. 
-  Data Retrieval Software Data retrieval software ensures fast, forensically sound extraction from vehicles and EDR modules. Features include device authentication, hashing, and chain-of-custody logs for legal defensibility. Cross-vendor protocol compatibility reduces investigation time and training overheads. 
-  Cloud-Based Platform Cloud-based platforms centralize storage, access control, and collaboration across fleets and geographies. Elastic compute supports heavy analytics and machine learning for pattern discovery. Built-in compliance management and data residency options address regional regulations and enterprise IT policies. 
Automotive Event Data Recorder (EDR) Market, Segmentation by Vehicle
The Vehicle segmentation considers differing deployment economics and regulatory exposure across Passenger Vehicles, Commercial Vehicles, Electric Vehicles, and Others. OEM strategies align EDR capabilities with fleet safety goals, warranty analytics, and insurance collaboration. As feature sets expand alongside ADAS and electrification, data models and retention policies are tailored to usage patterns and duty cycles.
Passenger Vehicles
Passenger vehicles lead adoption where consumer safety features, legal frameworks, and insurer partnerships converge. Automakers integrate EDR with driver-assist telemetry for richer incident narratives and faster claims processing. Focus areas include privacy controls, user consent, and seamless service diagnostics through dealer networks.
Commercial Vehicles
Commercial vehicles rely on EDR for fleet risk management, driver behavior tracking, and regulatory reporting. High utilization and mixed routes demand durable hardware and streamlined data offloading. Integration with telematics and compliance platforms enhances ROI via reduced downtime and liability mitigation.
Electric Vehicles
Electric vehicles extend EDR scope into battery and powertrain event context, linking crash data with thermal management and high-voltage safety states. OEMs emphasize isolation monitoring, post-crash handling guidance, and harmonized logs for repair validation. Enhanced software integration supports over-the-air improvements and rapid incident analysis.
Others
Others captures niche categories where EDR adoption is emerging, including specialized or low-volume vehicle formats. Vendors tailor form factors, interface adapters, and service models to unique duty conditions. Growth depends on targeted partnerships, modular kits, and proven total cost of ownership benefits.
Automotive Event Data Recorder (EDR) Market, Segmentation by Sales Channel
The Sales Channel axis distinguishes OEM integration from the Aftermarket, shaping procurement, validation, and support models. OEM-fit solutions stress platform standardization, homologation, and lifecycle warranty, while aftermarket providers focus on retrofit breadth, installation agility, and cross-brand compatibility. Ecosystem collaboration with insurers and law enforcement influences feature priorities and service SLAs.
OEM
OEM programs embed EDR at the design stage to ensure system-level integrity and compliance readiness. Benefits include unified data schemas, predictable serviceability, and streamlined software updates. Long-term support and security patching are coordinated within the vehicle’s electronic architecture roadmap.
Aftermarket
Aftermarket offerings enable rapid deployment across existing fleets, addressing cost, downtime, and operational flexibility. Solutions emphasize universal harnesses, guided calibration, and secure data extraction regardless of OEM. Service models prioritize installation partners, warranty alignment, and responsive technical support.
Automotive Event Data Recorder (EDR) Market, Segmentation by Geography
In this report, the Automotive Event Data Recorder (EDR) Market has been segmented by Geography into five regions: North America, Europe, Asia Pacific, Middle East and Africa and Latin America.
Regions and Countries Analyzed in this Report
North America
North America exhibits strong momentum driven by evolving regulatory expectations, insurer collaboration, and advanced ADAS penetration. Ecosystem players emphasize standards alignment, privacy safeguards, and robust forensics workflows to support litigation-ready evidence. Expansion focuses on cross-border data governance, cloud-managed analytics, and dealer-enabled serviceability.
Europe
Europe prioritizes safety compliance, rigorous type-approval, and data protection mandates that shape feature sets and retention policies. OEMs coordinate with tier suppliers to harmonize interfaces and strengthen cybersecurity. Market growth is supported by multi-language reporting, standardized file formats, and integration with incident management systems.
Asia Pacific
Asia Pacific benefits from rising vehicle production, expanding fleet digitization, and smart-city oriented telematics adoption. Differentiation centers on cost-optimized hardware, scalable cloud services, and localized regulatory conformity. Partnerships between global and regional vendors accelerate time-to-market and broaden channel coverage.
Middle East & Africa
Middle East & Africa is characterized by developing road safety initiatives, growth in commercial fleets, and selective aftermarket retrofits. Buyers value ruggedized hardware, simplified installation, and reliable support networks across diverse climates. Government-led programs and insurance incentives are improving awareness and adoption pathways.
Latin America
Latin America shows increasing interest from fleets and insurers seeking loss reduction and faster claims resolution. Market development hinges on cost-effective SKUs, trusted aftermarket partners, and localized training for retrieval and analysis. Policy evolution and public-private collaboration will shape long-term scalability and data stewardship.
Automotive Event Data Recorder (EDR) Market Forces
This report provides an in depth analysis of various factors that impact the dynamics of Automotive Event Data Recorder (EDR) Market. These factors include; Market Drivers, Restraints and Opportunities.
Comprehensive Market Impact Matrix
This matrix outlines how core market forces Drivers, Restraints, and Opportunities—affect key business dimensions including Growth, Competition, Customer Behavior, Regulation, and Innovation.
| Market Forces ↓ / Impact Areas → | Market Growth Rate | Competitive Landscape | Customer Behavior | Regulatory Influence | Innovation Potential | 
|---|---|---|---|---|---|
| Drivers | High impact (e.g., tech adoption, rising demand) | Encourages new entrants and fosters expansion | Increases usage and enhances demand elasticity | Often aligns with progressive policy trends | Fuels R&D initiatives and product development | 
| Restraints | Slows growth (e.g., high costs, supply chain issues) | Raises entry barriers and may drive market consolidation | Deters consumption due to friction or low awareness | Introduces compliance hurdles and regulatory risks | Limits innovation appetite and risk tolerance | 
| Opportunities | Unlocks new segments or untapped geographies | Creates white space for innovation and M&A | Opens new use cases and shifts consumer preferences | Policy shifts may offer strategic advantages | Sparks disruptive innovation and strategic alliances | 
Drivers:
- Safety regulations
- Accident reconstruction
-  Vehicle performance monitoring - EDRs play a crucial role in continuously monitoring and recording key metrics related to vehicle performance, such as engine parameters, fuel efficiency, vehicle speed, and mechanical systems' health. This data is essential for automotive manufacturers, fleet operators, and consumers alike to assess and optimize vehicle performance, ensure operational efficiency, and prolong vehicle lifespan. For automotive manufacturers, EDRs provide valuable insights during vehicle development and testing phases. By capturing real-time performance data, manufacturers can analyze engine performance under various driving conditions, assess the effectiveness of new technologies or components, and identify opportunities for design improvements. This iterative process helps manufacturers enhance vehicle reliability, optimize fuel consumption, and meet regulatory standards for emissions and efficiency. Fleet operators benefit significantly from EDRs' ability to monitor vehicle performance across their fleets in real-time. EDR data allows fleet managers to track maintenance schedules, diagnose potential issues proactively, and optimize vehicle routing and fuel usage. This proactive approach helps reduce operational costs, minimize downtime, and ensure fleet compliance with safety and environmental regulations. For consumers, EDRs offer peace of mind by providing insights into their vehicle's health and performance. EDRs can alert drivers to potential maintenance issues, such as engine malfunctions or brake system failures, before they become critical. This preventive maintenance approach not only enhances safety but also extends the vehicle's longevity and resale value. Technological advancements in EDRs, such as integration with Internet of Things (IoT) platforms and advanced analytics capabilities, further enhance their role in vehicle performance monitoring. These advancements enable real-time data transmission, predictive analytics for maintenance scheduling, and remote diagnostics, empowering stakeholders to make informed decisions that improve vehicle efficiency and reliability. 
Restraints:
- Privacy concerns
- Data security risks
-  Cost of implementation - For automotive manufacturers, integrating EDRs into vehicles during the manufacturing process involves significant upfront costs. These costs include not only the procurement of EDR hardware and software but also the expenses associated with design modifications, testing, and compliance with regulatory standards. Manufacturers must also invest in training personnel to install and maintain EDR systems effectively. The cost of implementation extends to aftermarket installations, where consumers bear additional expenses for purchasing and installing EDRs in existing vehicles. This includes the cost of the EDR device itself, installation fees charged by service providers, and potential costs associated with integrating EDRs with existing vehicle electronics. Depending on the complexity of the installation and the features offered by the EDR system, these costs can vary significantly, potentially posing a barrier to widespread consumer adoption, particularly in price-sensitive market segments. Ongoing operational costs such as data storage, maintenance, and software updates further contribute to the total cost of EDR implementation for both manufacturers and consumers. Regulatory compliance requirements also influence costs, as manufacturers must ensure that EDR systems meet evolving safety standards and data privacy regulations, which may necessitate additional investments in technology and infrastructure. Addressing the cost of implementation restraint requires industry stakeholders to innovate and optimize EDR technologies to reduce manufacturing and installation costs while enhancing functionality and reliability. Collaborations between automotive manufacturers, technology providers, and regulatory authorities can drive economies of scale, streamline compliance processes, and foster the development of cost-effective EDR solutions that meet both safety requirements and consumer expectations. 
Opportunities:
- Integration with IoT
- Autonomous vehicles
-  Market expansion - As regulatory requirements around the world increasingly mandate the installation of EDRs in vehicles to enhance safety and support accident investigations, the market is poised for significant growth. These regulations create a standardized demand for EDR technologies across various regions, fostering a robust market environment where manufacturers can innovate and compete. Technological advancements in sensor capabilities, data storage solutions, and connectivity options continue to improve the functionality and reliability of EDRs. Enhanced data analytics capabilities enable more sophisticated interpretation of vehicle performance metrics and driver behavior, providing valuable insights for vehicle manufacturers, insurers, and regulatory bodies alike. This technological evolution not only enhances the safety features of vehicles but also contributes to the development of autonomous driving technologies and intelligent transportation systems. The expansion of the automotive EDR market is also bolstered by increasing consumer awareness and demand for enhanced vehicle safety features. Consumers are increasingly prioritizing vehicles equipped with advanced safety technologies, including EDRs, which provide objective data crucial for accident reconstruction, insurance claims processing, and legal investigations. This consumer preference drives automakers to integrate more sophisticated EDR systems into their vehicle designs, thereby expanding the market for both OEM-installed and aftermarket EDR solutions. 
Automotive Event Data Recorder (EDR) Market Competitive Landscape Analysis
Automotive Event Data Recorder (EDR) Market is characterized by increasing competition as manufacturers strengthen their strategies to capture growing demand for advanced vehicle data solutions. Major players are enhancing collaboration with technology providers to improve safety analytics and compliance reporting. Rising emphasis on merger and partnerships supports stronger positioning and drives growth within emerging automotive electronics segments.
Market Structure and Concentration
The market shows moderate concentration, with leading brands securing significant percentages through proprietary innovation and integrated system design. Smaller entrants target niche segments using tailored strategies and specialized data processing capabilities. Consolidation trends are accelerating as companies pursue merger and acquisition paths to expand their technological portfolios and enhance competitive strength.
Brand and Channel Strategies
Leading manufacturers emphasize strong brand positioning through strategic partnerships with automotive OEMs and aftermarket networks. Distribution channels are shifting toward digital interfaces and connected service models to meet customer needs efficiently. Enhanced collaboration with telematics providers and mobility platforms boosts visibility and supports growth in safety-driven vehicle intelligence systems.
Innovation Drivers and Technological Advancements
Ongoing technological advancements focus on improving data capture, crash analytics, and secure storage for EDR units. Manufacturers are investing heavily in AI-based diagnostics, remote firmware updates, and enhanced encryption to ensure reliability. Strategic innovation combined with collaboration between automotive software and hardware specialists strengthens product development speed and future market growth.
Regional Momentum and Expansion
Regional adoption is rising as safety regulations and insurance incentives promote wider EDR deployment. North America and Europe lead with stringent standards, while Asia-Pacific witnesses rapid expansion through local OEM integration and cross-border partnerships. Companies deploy localized strategies to adapt to market requirements, creating dynamic competition and regional technological growth.
Future Outlook
Sustained growth is expected as manufacturers refine strategies to meet evolving compliance, connectivity, and safety demands. Greater collaboration among automakers, insurers, and tech providers will fuel market transformation. Continuous innovation in event data precision and system interoperability positions the sector for significant expansion and enhanced user value in coming years.
Key players in Automotive Event Data Recorder (EDR) Market include:
- Robert Bosch GmbH
- Continental AG
- Denso Corporation
- ZF Friedrichshafen AG
- Aptiv PLC
- Autoliv Inc.
- Valeo SA
- Visteon Corporation
- Panasonic Corporation
- Hella GmbH & Co. KGaA
- Ats Group
- Delphi Technologies
- Garrett Discovery
- Infineon Technologies AG
- Harman International (Samsung)
In this report, the profile of each market player provides following information:
- Market Share Analysis
- Company Overview and Product Portfolio
- Key Developments
- Financial Overview
- Strategies
- Company SWOT Analysis
- Follow this format in all the markets
- Introduction - Research Objectives and Assumptions
- Research Methodology
- Abbreviations
 
- Market Definition & Study Scope
- Executive Summary - Market Snapshot, By Component
- Market Snapshot, By Vehicle
- Market Snapshot, By Sales Channel
- Market Snapshot, By Region
 
- Automotive Event Data Recorder (EDR) Market Dynamics - Drivers, Restraints and Opportunities - Drivers -  Safety regulations 
-  Accident reconstruction 
-  Vehicle performance monitoring 
 
-  
- Restraints -  Privacy concerns 
-  Data security risks 
-  Cost of implementation 
 
-  
- Opportunities -  Integration with IoT 
-  Autonomous vehicles 
-  Market expansion 
 
-  
 
- Drivers 
- PEST Analysis - Political Analysis
- Economic Analysis
- Social Analysis
- Technological Analysis
 
- Porter's Analysis - Bargaining Power of Suppliers
- Bargaining Power of Buyers
- Threat of Substitutes
- Threat of New Entrants
- Competitive Rivalry
 
 
- Drivers, Restraints and Opportunities 
- Market Segmentation - Automotive Event Data Recorder (EDR) Market, By Component, 2021 - 2031 (USD Million) - Hardware - Event Data Recorder Unit
- Sensors - Accelerometers
- Gyroscopes
- Speed Sensors
- Brake Sensors
- Airbag Deployment Sensors
 
- Storage Devices
- Power Supply Units
 
- Software - Data Analysis Software
- Data Retrieval Software
- Cloud-Based Platform
 
 
- Hardware 
- Automotive Event Data Recorder (EDR) Market, By Vehicle, 2021 - 2031 (USD Million) - Passenger Vehicles
- Commercial Vehicles
- Electric Vehicles
- Others
 
- Automotive Event Data Recorder (EDR) Market, By Sales Channel, 2021 - 2031 (USD Million) - OEM
- Aftermarket
 
- Automotive Event Data Recorder (EDR) Market, By Geography, 2021 - 2031 (USD Million) - North America - United States
- Canada
 
- Europe - Germany
- United Kingdom
- France
- Italy
- Spain
- Nordic
- Benelux
- Rest of Europe
 
- Asia Pacific - Japan
- China
- India
- Australia & New Zealand
- South Korea
- ASEAN (Association of South East Asian Countries)
- Rest of Asia Pacific
 
- Middle East & Africa - GCC
- Israel
- South Africa
- Rest of Middle East & Africa
 
- Latin America - Brazil
- Mexico
- Argentina
- Rest of Latin America
 
 
- North America 
 
- Automotive Event Data Recorder (EDR) Market, By Component, 2021 - 2031 (USD Million) 
- Competitive Landscape - Company Profiles - Robert Bosch GmbH
- Continental AG
- Denso Corporation
- ZF Friedrichshafen AG
- Aptiv PLC
- Autoliv Inc.
- Valeo SA
- Visteon Corporation
- Panasonic Corporation
- Hella GmbH & Co. KGaA
- Ats Group
- Delphi Technologies
- Garrett Discovery
- Infineon Technologies AG
- Harman International (Samsung)
 
 
- Company Profiles 
- Analyst Views
- Future Outlook of the Market


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