United States Automotive PCB Market By Type (Single-Sides PCB, Double-Sided PCB, Multi-Layer PCB), By Level of Autonomous (Autonomous, Conventional), By Application Type (Body, Comfort & Vehicle Lighting, Powertrain Components, Infotainment Components, ADAS & Basic Safety Bread), By Propulsion Type (ICE, BEV, HEV) Regional, Competition, Forecast & Opportunities 2018-2028
Published Date: May - 2025 | Publisher: MIR | No of Pages: 320 | Industry: Automotive | Format: Report available in PDF / Excel Format
View Details Buy Now 2890 Download Sample Ask for Discount Request Customization| Forecast Period | 2024-2028 |
| Market Size (2022) | USD 560 million |
| CAGR (2023-2028) | 5.10% |
| Fastest Growing Segment | Multi-Layer PCB |
| Largest Market | West |
Market Overview
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United States Automotive PCB Market has valued at USD 560 million in 2022 and is anticipated to project robust growth in the forecast period with a CAGR of 5.10%.
Over the next five years, the demand for increased safety features in cars and the rising popularity of hybrid and electric vehicles are likely to drive the growth of the US automotive PCB market. In most electrical applications, the components are physically supported and wired using a printed circuit board, or PCB. Power replays, anti-clock braking systems, digital displays, vehicle radars, ECU control modules, transmission sensors, and stereo audio components of the car are just a few of the automotive applications where it is used. The industry is further stimulated by consumers' growing preference for high-tech hybrid and electrical vehicles as well as lightweight vehicles. In addition, there are new energy vehicles, driverless automobiles in the future, and networked vehicles.
Key Market Drivers
Surge in the Need for Hybrid and Electric Vehicles
The world of automotive business is witnessing an all-time big wave towards hybrid and electric cars in the efforts toward cleaner, more environmentally friendly modes of travel. PCB finds prominent use within electric and hybrid vehicles, aiding the control, as well as handling, of electric power system, battery handling, and interface to various other electronic components. Electric and hybrid car battery handling relies heavily upon PCBs. They provide battery health monitoring, cell balancing, and enable safe and efficient vehicle powertrain operation. Hybrid and electric cars utilize advanced power electronics for control of the motors, energy conversion, and regenerative braking. PCBs that offer high-quality thermal management play an important role in such applications. Electric vehicles use advanced ADAS, sensors, cameras, and radar equipment in many applications. These need PCBs as the basis of their operation. The growth of electric vehicle charging infrastructure across the United States necessitates advanced PCBs for communication, power distribution, and billing systems. As the demand for electric and hybrid vehicles is likely to boom, the United States Automotive PCB Market will see increased demand for PCBs that are able to meet the particular needs of such environmentally friendly vehicles.
Advancements in Autonomous Driving Technologies
Autonomous driving technologies are rapidly advancing, with self-driving vehicles becoming a reality on roads. Printed Circuit Boards are the backbone of these technologies, enabling the processing of data, sensor fusion, and real-time decision-making. Autonomous vehicles utilize a suite of sensors such as LiDAR, cameras, radar, and ultrasonic sensors. PCBs have a key role in processing and integrating data from these sensors to make safe navigation possible. Autonomous vehicles need highly capable onboard computers with sophisticated PCBs to manage their massive data processing demands for real-time decision-making. PCBs are also vital for connectivity, allowing autonomous vehicles to exchange information with other autonomous vehicles, infrastructure, and cloud-based systems for over-the-air updates and exchanging critical information. The highest reliability and redundancy are critical in autonomous vehicles. PCBs with redundancy capabilities are needed to provide increased safety. With automotive and tech industries spending on autonomous driving technology, the United States Automotive PCB Market shall witness rising demand for PCBs that will have to live up to the demanding requirements of autonomous systems.
Speedy Development of In-Car Connectivity and Infotainment Systems
Growing demand for in-car connectivity and higher infotainment systems among consumers has driven the implementation of advanced PCBs in new-age cars. Contemporary cars have sophisticated infotainment systems that include touch screens, navigation, multimedia, and connectivity to internet and smartphones. The functionality and connectivity of these systems are made possible by PCBs. With the emergence of 5G technology, cars are being more connected than before. PCBs capable of facilitating high-speed data transfer are very much part of in-car connectivity. People look for seamless connectivity as well as ease of use. PCBs integrated with Wi-Fi, Bluetooth, and other wireless technologies are primarily responsible for advancing the user experience. Premium sound systems, such as surround sound and noise cancellation, depend upon sophisticated PCBs to provide optimal sound quality. With increasing demands for in-car connectivity and next-generation infotainment systems, the United States Automotive PCB Market will witness more demand for PCBs capable of supporting these features.
Stringent Emission Standards and Fuel Efficiency Requirements
Automakers are using electronics and PCBs to achieve stringent emission standards and fuel efficiency requirements. PCBs are employed heavily in engine control units to measure and optimize engine performance to meet emission standards. PCBs are involved in managing the powertrain, such as transmission control and electric power management in hybrid vehicles. Advanced exhaust gas treatment systems, such as selective catalytic reduction (SCR), rely on PCBs to control the injection of urea to reduce emissions. PCBs are designed to be lightweight and compact, contributing to the overall fuel efficiency of the vehicle. As emission regulations become stricter, PCBs that can support advanced engine management and emissions control systems will be in high demand in the United States Automotive PCB Market.
Heightened Emphasis on Vehicle Safety and ADAS
Safety in vehicles is a priority for car manufacturers, and Advanced Driver-Assistance Systems (ADAS) take center stage in safety enhancement. ADAS features are predominantly dependent on PCBs to ensure functionality. PCBs are present in the cameras and sensors that drive ADAS functionality like adaptive cruise control, lane-keeping assist, and automatic emergency braking. ADAS systems call for sensor data to be processed in real-time, something achieved by the advanced PCBs. For safety, PCBs implemented in ADAS applications have to be very reliable and robust. As the standards for safety regulations change, PCBs employed in ADAS applications have to keep up with current standards. Increasing focus on car safety and widespread adoption of ADAS features will propel the need for expert PCBs in the United States Automotive PCB Market.
Environmental Issues and Sustainable Production
Environmental sustainability is becoming increasingly important in the automotive sector. PCB producers are responding by using environmentally friendly materials and production processes. Lead-free PCB conversion promotes environmental sustainability and minimizes hazardous materials in production. Producers are researching recyclable and biodegradable materials for use in PCBs. Sustainable production processes aim to minimize energy consumption in PCB production. These green practices involve efficient e-waste management to reduce the environmental impact of electronic materials at the end of their lifespan. With ever-increasing concerns regarding the environment, PCB industries and automobile businesses in the US will look to adopt sustainable and green solutions while manufacturing and applying PCBs.
Key Market Challenges
Complex Design and Integration Requirements
Modern vehicles are equipped with an ever-increasing number of electronic systems, sensors, and advanced technologies. The design and integration of PCBs in automobiles have become highly complex due to the need for connectivity, safety, infotainment, autonomous driving features, and electric power management. The integration of numerous sensors, including LiDAR, cameras, radar, ultrasonic sensors, and more, requires PCBs to handle the complexity of data processing and fusion. PCBs must enable seamless communication between various systems, from engine control units to infotainment, ADAS, and in-car connectivity. As vehicles become more compact and lightweight, there is a growing demand for miniaturized PCBs that can fit into smaller spaces while maintaining performance. The need for high-speed data transmission within the vehicle and with external networks poses design and integration challenges for PCBs.
Reliability and Durability in Harsh Environments
Vehicles operate in a wide range of environmental conditions, from extreme temperatures to vibration, humidity, and exposure to road salts. PCBs in automotive applications must be highly reliable and durable. Under-hood components and those in the passenger cabin are subjected to temperature fluctuations that can affect PCB performance. Automotive PCBs must withstand constant vibration and shock, which can lead to mechanical stress and solder joint failures. PCBs in regions with high humidity and exposure to road salts must be resistant to corrosion. Automotive PCBs are expected to have a long lifespan to match the average vehicle life of around 10-15 years.
Supply Chain Disruptions and Component Shortages
Regulatory Compliance and Safety Standards
The automotive industry is subject to rigorous safety and environmental regulations. Compliance with these standards is vital but can be challenging for PCB manufacturers. Vehicles must meet strict emission standards, necessitating complex engine control units and exhaust gas treatment systems, which rely on advanced PCBs. Ensuring safety in vehicles with advanced features like ADAS and autonomous driving requires adherence to evolving safety standards. As vehicles become more connected, ensuring cybersecurity standards are met is a growing concern. Eco-friendly regulations and standards require manufacturers to use recyclable or biodegradable materials in PCBs.
Quality Control and Testing
Ensuring the quality of PCBs is critical for the safe and reliable operation of vehicles. This involves thorough testing and quality control processes, which can be time-consuming and resource intensive. PCBs in modern vehicles are highly complex, requiring comprehensive testing processes to identify defects or failures. The demand for fast and efficient testing methods that don't compromise quality is a significant challenge. As vehicles evolve, PCBs need to adapt to new technologies and standards, requiring adjustments in testing procedures. In case of defects or failures, detailed failure analysis is necessary to determine root causes.
Environmental Sustainability
The automotive industry, including PCB manufacturing, is under pressure to adopt environmentally sustainable practices. PCB materials, manufacturing processes, and end-of-life disposal must align with sustainability goals. Moving away from lead-based materials in PCB manufacturing supports environmental sustainability. Exploring recyclable or biodegradable materials for PCBs aligns with sustainability goals. Responsible e-waste management and recycling practices are essential for minimizing the environmental impact of PCB disposal.
Key Market Trends
Rapid Electrification of Vehicles
The shift towards electric vehicles (EVs) is one of the most prominent trends in the automotive industry. As automakers invest heavily in electrification, PCBs are playing a critical role in the development and operation of electric vehicles. Electric vehicles rely on complex battery management systems that monitor cell health, manage charging and discharging, and ensure safety. PCBs are central to BMS functionality. EVs require power electronics for motor control, energy conversion, and regenerative braking. PCBs with advanced thermal management capabilities are essential in these applications. The growth of EVs demands an expansion of charging infrastructure. PCBs are used in charging stations and communication systems to support the charging network. PCBs designed for high-voltage applications are in demand to handle the specific requirements of electric vehicles. As the electrification of vehicles continues to gain momentum, the United States Automotive PCB Market will see increased demand for PCBs that can meet the unique needs of electric power systems.
Advancements in Autonomous Driving Technologies
Autonomous driving technologies are evolving rapidly, and self-driving vehicles are becoming more of a reality. PCBs are at the forefront of these innovations, supporting data processing, sensor fusion, and real-time decision-making. Autonomous vehicles rely on an array of sensors, including LiDAR, cameras, radar, and ultrasonic sensors. PCBs are critical for processing and fusing data from these sensors to enable safe navigation. Autonomous vehicles require powerful onboard computers with advanced PCBs to handle the extensive data processing requirements for real-time decision-making. PCBs play a central role in the connectivity of autonomous vehicles, enabling communication between vehicles, infrastructure, and cloud-based platforms. Ensuring the highest levels of reliability and redundancy is essential for the safety of autonomous vehicles. PCBs with built-in redundancy features are in demand to enhance safety. As automakers and technology companies continue to invest in autonomous driving technology, the United States Automotive PCB Market will experience a surge in demand for PCBs designed to meet the rigorous requirements of self-driving systems.
In-Car Connectivity and Advanced Infotainment Systems
The demand for in-car connectivity and advanced infotainment systems is growing rapidly, driven by consumer preferences for a connected driving experience. PCBs are essential in supporting these features. Modern vehicles are equipped with advanced infotainment systems that include touch screens, navigation, multimedia, and connectivity to smartphones and the internet. PCBs enable the functionality and connectivity of these systems. The advent of 5G technology is making vehicles more connected than ever. PCBs with high-speed data transfer capabilities are integral to in-car connectivity. Consumers expect seamless connectivity and user-friendly interfaces. PCBs with integrated Wi-Fi, Bluetooth, and other wireless technologies are crucial for enhancing the user experience. High-quality audio systems, including surround sound and noise cancellation, rely on advanced PCBs to deliver optimal sound quality. The increasing consumer demand for in-car connectivity and advanced infotainment systems will drive the United States Automotive PCB Market to see increased demand for PCBs that can support these technologies.
Stringent Emission Regulations and Fuel Efficiency Standards
The need to meet stringent emission regulations and fuel efficiency standards is pushing automakers to turn to electronics and PCBs to optimize engine performance and reduce emissions. PCBs are used extensively in engine control units to monitor and optimize engine performance, ensuring compliance with emission standards. PCBs play a role in managing the powertrain, including transmission control and electric power management in hybrid vehicles. Advanced exhaust gas treatment systems, such as selective catalytic reduction (SCR), rely on PCBs to control the injection of urea to reduce emissions. PCBs designed to be lightweight and compact contribute to the overall fuel efficiency of the vehicle. As emission regulations become stricter, PCBs that can support advanced engine management and emissions control systems will be in high demand in the United States Automotive PCB Market.
Increased Focus on Vehicle Safety and ADAS
Vehicle safety is a top priority for automakers, and Advanced Driver-Assistance Systems (ADAS) are at the forefront of enhancing safety. These systems rely heavily on PCBs to function effectively. PCBs are used in the sensors and cameras that power ADAS features such as adaptive cruise control, lane-keeping assist, and automatic emergency braking. ADAS systems require real-time processing of sensor data, which is made possible through advanced PCBs. To ensure safety, PCBs used in ADAS applications must be highly reliable and resilient. As safety regulations evolve, PCBs in ADAS systems must meet the latest standards. The growing emphasis on vehicle safety and the proliferation of ADAS features will drive demand for specialized PCBs in the United States Automotive PCB Market.
Environmental Sustainability
Environmental sustainability is a growing concern in the automotive industry, and this extends to PCB manufacturing. PCB materials, processes, and end-of-life disposal must align with sustainability goals. Moving away from lead-based materials in PCB manufacturing supports environmental sustainability. Exploring recyclable or biodegradable materials for PCBs aligns with sustainability goals. Sustainable manufacturing practices are focused on reducing energy consumption during PCB production. Responsible e-waste management and recycling practices are essential for minimizing the environmental impact of electronic components at the end of their life cycle. As environmental awareness continues to grow, PCB manufacturers and automotive companies in the United States are seeking sustainable and eco-friendly solutions in the production and use of PCBs.
Segmental Insights
Type Insights
Single-Layer PCBs dominate the market. Single-layer PCBs, also known as single-sided PCBs, consist of a single layer of conductive material (usually copper) on one side of an insulating substrate. Single-layer PCBs are commonly used in basic automotive applications, such as power distribution, lighting control, and some sensors. They are cost-effective and relatively simple to manufacture. Double-layer PCBs consist of two layers of conductive material separated by an insulating layer. They are commonly used in various automotive systems. Double-layer PCBs are suitable for more complex applications, including infotainment systems, engine control units, and some ADAS components. They provide increased functionality and flexibility while still being cost-effective. Limited compared to multi-layer PCBs in terms of complexity. Multi-layer PCBs have three or more layers of conductive material separated by insulating layers, allowing for more complex circuits. Multi-layer PCBs are used in advanced automotive systems, including ADAS, autonomous driving, infotainment, and complex engine control units. They offer high functionality, smaller form factors, and support for high-speed data transfer. More complex and costly to manufacture compared to single or double-layer PCBs.
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Regional Insights
The West region dominates the market. California and Silicon ValleyThe West Coast, particularly California, is a hub for electric and autonomous vehicle development. PCB demand is high due to the presence of numerous tech companies and startups. These PCBs are used in autonomous driving systems, electric powertrains, and advanced infotainment. The Midwest, with states like Michigan, Ohio, and Indiana, is known for its automotive manufacturing. PCBs are widely used in engine control units, powertrain systems, and advanced safety features. The region's focus on traditional and electric vehicle manufacturing drives significant demand. The Northeast, including states like New York and Massachusetts, is home to leading research institutions and tech companies. PCBs are used in R&D for autonomous driving technologies, AI integration, and innovative infotainment systems. Southern states like Texas and Tennessee are major hubs for automotive manufacturing and logistics. PCBs are essential in engine control, telematics, and supply chain management systems, given the high concentration of distribution centers and shipping hubs.
Recent Developments
- Meiko Electronics said in June 2021 thatit would invest a total of USD 453.72 million over the fiscal years 2021 to2024, with an emphasis on increasing automotive PCB capacity to fulfill thehigh demand for ADAS and electrical vehicle applications.
- Samsung Electro-Mechanics Companyrevised its expansion strategy in February 2021 by using an online promotionprogram called MLCC through a European electronic component medium. SamsungElectro-Mechanics intends to improve its capabilities for internationalmarketing starting with this promotion.
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Key Market Players
- Samsung Electro-Mechanics
- Delphi
- Chin Poon Industrial
- Daeduck Electronics
- Nippon Mektron
- Amitron
- CMK
- Unimicron Technology
- Meiko Electronics
- KCE Electronics
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