North America Multi-Layer Ceramic Capacitor Market Outlook, 2030

The North America multi-layer ceramic capacitor market is witnessing robust growth due to automation and technological advancements across several industries. The integration of MLCC into diverse electronic applications takes a central role in this expansion. Additionally, with a rising need for consumer electronics, diversified product portfolios and strategic market strategies are implemented to drive company sales. The United States is making renowned progress with leading innovations in automotive technologies, particularly electric vehicles with autonomous features. High-tech automobiles such as Tesla require approximately 10,000 multi-layer ceramic capacitors for each vehicle.

Canada is equally making progress with an upsurge in sales of electric vehicles. The initial quarter of 2022 witnessed the highest number of EV registrations, around 26,018. Moreover, 75% of these are battery-electric vehicles, and the rest are plug-in hybrid electric vehicles. The country is also recognized as the second largest automotive market in this region, which hosts renowned manufacturers like Ford, General Motors, Toyota, etc. Additionally, MLCCs have become increasingly vital in the automotive industry, particularly with the growth of electric vehicles (EVs) and advanced driver-assistance systems (ADAS). As per the International Energy Agency, the Electric car industry is seeing robust growth as sales neared 14 million in 2023.

The proportion of EVs in total sales increased from approximately 4% in 2020 to 18% in 2023. It is anticipated that EV sales will remain robust until 2024. North American MLCC manufacturers must comply with stringent environmental standards such as RoHS (Restriction of Hazardous Substances) and REACH, which require the reduction or elimination of hazardous materials in electronic components.

According to the research report "North America Multi - Layer Ceramic Capacitor Market Outlook, 2030," the North America Multi - Layer Ceramic Capacitor market is anticipated to grow at more than 12.12% CAGR from 2025 to 2030. The expansion of EV production facilities, such as Tesla’s Gigafactories and other OEM investments in Michigan and Ontario - has directly contributed to the growth of local MLCC consumption. The automotive sector, particularly with the rising adoption of electric vehicles (EVs) and autonomous driving technologies, has created an enormous appetite for MLCCs due to their compact size, durability, and ability to function in high-temperature and high-frequency environments. Leading automakers and suppliers in the U.S.

and Canada have been integrating more electronic control units (ECUs) and safety systems that heavily depend on multilayer capacitors. The rollout of 5G networks across North America has prompted infrastructure development that requires high-capacity and low-loss MLCCs in base stations, routers, and signal processing equipment. Companies like Qualcomm, Cisco, and AT&T are investing in equipment upgrades, further fueling demand. Simultaneously, the surge in data centers and cloud computing platforms, boosted by the rise of remote work and digital services post-COVID-19, has expanded the requirement for high-reliability capacitors. Environmental regulations and trade policies are also shaping market dynamics.

With increasing focus on sustainability, manufacturers are adopting lead-free and halogen-free materials to meet RoHS and REACH standards. Trade tensions with China have led many North American companies to explore reshoring strategies or diversify sourcing to mitigate risks. Moreover, the development of recycling programs for rare earth and metal components used in MLCCs is gradually gaining traction to reduce dependence on volatile global supply chains.

Market Drivers

• Surging Demand for Consumer Electronics and 5G Infrastructure: One of the key growth drivers of the North America MLCC market is the increasing adoption of consumer electronics and the ongoing rollout of 5G networks. MLCCs are essential components in smartphones, laptops, tablets, and smart devices, which continue to see robust demand across the region. In particular, the high-capacitance and miniaturization features of MLCCs are vital for supporting the fast-switching power supply and signal integrity requirements in modern electronics. Moreover, the 5G rollout in the U.S. and Canada is accelerating MLCC consumption, especially in base stations, network infrastructure, and high-frequency communication modules.
• Advancements in Automotive Electronics and EV Adoption: The rapid growth of electric vehicles (EVs) and smart automotive systems in North America has created substantial demand for MLCCs. These capacitors are used extensively in powertrains, battery management systems, infotainment, advanced driver assistance systems (ADAS), and safety modules. As automakers integrate more electronics for efficiency and safety, MLCCs are becoming indispensable. The U.S. government’s initiatives and incentives for EV manufacturing and green energy adoption further boost this demand, especially as automotive applications require high-reliability capacitors with thermal and mechanical stability.

Market Challenges

• Raw Material Supply Chain Constraints: The North American MLCC market faces challenges in securing a steady supply of critical raw materials such as barium titanate, palladium, and rare earth metals. Most of these materials are imported from Asia, particularly China and Japan, leading to geopolitical risks, fluctuating trade policies, and supply disruptions. The concentration of material sourcing outside North America raises vulnerability to price volatility and shipping delays, affecting production timelines and cost structures of local MLCC manufacturers.
• Technological Complexity and Miniaturization Limits: As electronic devices continue to shrink in size while increasing in functionality, MLCCs must offer higher capacitance in smaller footprints. This technological demand poses manufacturing challenges, including higher defect rates, increased complexity in multilayer stacking, and the need for precision equipment. Not all manufacturers are able to keep pace with these innovations, especially small and mid-sized firms that may lack the R&D capacity to produce ultra-small or high-performance MLCCs competitively.

Market Trends

• Shift Toward Automotive-Grade and High-Reliability MLCCs: There is a growing trend in North America toward the development and use of automotive-grade MLCCs that can endure harsh environmental conditions, high voltages, and temperature extremes. As industries like aerospace, defense, and EVs demand capacitors with stringent reliability standards, manufacturers are investing in robust product lines that comply with AEC-Q200 and other quality standards. This trend is also prompting partnerships and collaborations between component makers and OEMs for long-term supply agreements and customized MLCC solutions.
• Localization of Production and Strategic Reshoring: In response to supply chain risks and increasing demand, several players in the North American MLCC industry are exploring local manufacturing capabilities. There is a noticeable trend of reshoring and expanding domestic production facilities to reduce dependency on Asia-based suppliers. This shift is supported by government incentives for semiconductor and component manufacturing in the U.S., particularly through programs like the CHIPS and Science Act. Establishing local production hubs also aligns with the industry’s goal of achieving faster delivery times and improved supply resilience.

The general capacitor type is leading in the North America multilayer ceramic capacitor (MLCC) industry due to its widespread applicability across multiple high-volume consumers, industrial, and telecom electronics sectors.

The dominance of general type multilayer ceramic capacitors stems from their broad compatibility and indispensable role across a wide range of high-demand electronic applications. These capacitors are engineered for standard functions such as decoupling, filtering, bypassing, and coupling, which are fundamental to virtually every kind of electronic device. The United States and Canada have long-standing strengths in sectors like telecommunications infrastructure, industrial automation, automotive electronics, consumer gadgets, medical equipment, and defense electronics. All of these segments rely heavily on general-purpose MLCCs due to their small size, stability, reliability, and cost-effectiveness.

For instance, smartphones, tablets, routers, and laptops all incorporate hundreds to thousands of general MLCCs each, and North America’s strong consumer base and high electronics adoption rate keep the demand vibrant. Moreover, the growth of cloud computing, 5G rollouts, and IoT ecosystems across the region is triggering the proliferation of electronic components, including general MLCCs, in servers, base stations, and edge computing devices. Unlike specialized capacitor types, general MLCCs serve as universal building blocks that can be used in designs ranging from low to moderately high frequencies and voltages, making them attractive to OEMs and contract manufacturers seeking versatile and easily sourced components.

The presence of major electronics companies, design centers, and R&D hubs in Silicon Valley, Austin, and other innovation clusters also supports consistent demand for general capacitors in prototyping and mass production. Additionally, general MLCCs are produced in a variety of case sizes and capacitance-voltage ratings, offering flexibility to design engineers working under size, cost, and performance constraints. The reliability of general capacitors under thermal and mechanical stress, particularly those using C0G or X7R class dielectrics, aligns well with quality expectations and regulatory standards in North American markets.

The telecommunication end-user segment is experiencing moderate growth in the North America multilayer ceramic capacitor (MLCC) industry due to steady but matured infrastructure development, coupled with gradual adoption of 5G technologies.

Unlike emerging economies where basic telecom infrastructure is still being built, North America particularly the United States and Canada has long-established networks, meaning that current MLCC demand from telecom players comes more from upgrades and targeted expansions rather than from large-scale foundational projects. However, this moderate trajectory is still supported by several ongoing developments. The continued rollout of 5G technology is a key factor sustaining demand, as 5G base stations, antennas, routers, and core network equipment require significantly more MLCCs compared to their 4G counterparts due to higher frequency operation and increased data processing requirements.

In addition, telecom companies are investing in edge computing, fiber-optic infrastructure, and next-generation networking solutions to meet the surge in data traffic driven by cloud services, IoT devices, and remote connectivity needs - all of which utilize MLCCs for signal integrity, filtering, and power management. Another contributor to this growth is the rapid expansion of hyperscale data centers across the U.S. and Canada by tech giants like Amazon, Google, and Microsoft, which deploy massive volumes of network and server hardware each densely packed with MLCCs.

That said this growth remains measured due to high capital costs, lengthy approval cycles, and a regulatory environment that often slows the pace of telecom infrastructure deployment, especially in rural or underserved areas. Additionally, geopolitical and supply chain pressures are making telecom firms more cautious in long-term investments. Moreover, since much of the hardware manufacturing for telecom equipment is outsourced or occurs overseas, domestic MLCC demand is sometimes softened, depending on regional production cycles and inventory strategies.

The 0603-1206 inches case size type is leading in the North America multilayer ceramic capacitor (MLCC) industry because it strikes an ideal balance between performance, power handling, and design compatibility across key regional applications like automotive.

In sectors such as automotive electronics, where North America has a strong market driven by both traditional and electric vehicle (EV) manufacturers, these mid-sized MLCCs are widely used in powertrain systems, infotainment, battery management systems, and advanced driver assistance systems (ADAS). Similarly, in industrial automation and medical devices both major sectors in the U.S. and Canada, the need for durable and high-capacitance components that can endure demanding operating environments makes the 0603-1206 size range a preferred choice.

Unlike ultra-miniaturized MLCCs (such as 0201 or smaller), which require highly complex assembly processes and are typically reserved for consumer handheld electronics, the 0603-1206 sizes are easier to handle, assemble, and inspect, which is beneficial for North American manufacturers who often prioritize reliability, maintainability, and quality assurance. Moreover, this size range supports higher voltage and capacitance combinations compared to smaller counterparts, making them suitable for high-frequency and power circuit designs found in telecom equipment, aerospace systems, and data center infrastructure all of which are key growth areas in North America.

Another contributing factor is the widespread use of surface mount technology (SMT) in local manufacturing facilities, where the 0603-1206 case sizes are compatible with standard pick-and-place equipment and allow for efficient board layout designs. Additionally, with ongoing U.S. government initiatives encouraging reshoring of electronic component manufacturing and greater control over critical supply chains, many North American OEMs and EMS providers are leaning toward standardized, reliable component sizes - like 0603 to 1206 that are readily available and well-supported by both domestic and global suppliers. These capacitors also offer better mechanical strength and are less prone to microcracking under thermal or vibrational stress, which is crucial for mission-critical electronics.

The mid-range (100 V - 630 V) voltage range type is leading in the North America multilayer ceramic capacitor (MLCC) industry because it meets the voltage and performance requirements of dominant regional applications like automotive systems, industrial equipment.

In the automotive sector where North America is home to both legacy automakers and a fast-growing electric vehicle (EV) ecosystem MLCCs in the mid-voltage range are essential for powertrain electronics, on-board chargers, battery management systems, and high-efficiency DC-DC converters. These applications require capacitors that can withstand moderate to high voltage while maintaining high capacitance, thermal stability, and long-term reliability. Similarly, industrial automation, a major focus of U.S. and Canadian manufacturing, relies heavily on mid-voltage MLCCs in motor drives, power supplies, and control systems, where durability under continuous operation is critical.

Furthermore, North America’s strong emphasis on renewable energy systems, including solar inverters, energy storage units, and grid-interactive equipment, is fueling demand for MLCCs that can reliably operate in circuits handling hundreds of volts. In the telecommunications sector, the shift to 5G networks, edge computing, and data center expansion involves power distribution and RF circuitry where mid-voltage MLCCs play an essential role in filtering and decoupling. This voltage range offers a superior balance between insulation strength and component size, making it ideal for multilayer board designs used in these high-frequency applications.

Importantly, many North American electronics manufacturers favor components that simplify design and inventory management across diverse product lines; mid-voltage MLCCs serve this purpose well by being adaptable to a wide variety of operating conditions and standards. Their proven performance in harsh environments including extreme temperature, vibration, and electrical noise also makes them suitable for aerospace and defense electronics, where the U.S. leads globally. Additionally, with increasing emphasis on electrification, energy efficiency, and smart infrastructure across the continent, the mid-range MLCCs offer the necessary electrical characteristics to support both current needs and next-generation innovations.

The USA leads the North American multilayer ceramic capacitor (MLCC) industry due to its advanced technological infrastructure and strong demand from high-end applications such as aerospace, defense, telecommunications, and electric vehicles.

The United States holds a leading position in the North American MLCC industry largely because of its mature technological ecosystem and specialized demand from critical high-reliability sectors. Unlike the Asia Pacific region, which focuses on high-volume consumer electronics, the U.S. market emphasizes quality, performance, and reliability - attributes essential in sectors such as aerospace, defense, telecommunications, and electric mobility. American companies and defense contractors rely heavily on MLCCs for mission-critical applications like satellites, missile systems, avionics, and radar systems, where failure is not an option and components must meet stringent MIL-SPEC and aerospace standards.

This has led to the development of a robust domestic supply chain that prioritizes high-capacitance, temperature-stable, and radiation-hardened MLCCs. U.S.-based manufacturers such as KEMET (now part of Yageo), AVX (a Kyocera Group company), and Vishay Intertechnology play a pivotal role in designing specialized MLCCs that meet the unique requirements of these demanding industries. Additionally, the growing momentum toward domestic semiconductor and electronics manufacturing, bolstered by federal initiatives like the CHIPS and Science Act, has further energized the MLCC ecosystem by attracting capital, talent, and technological collaborations.

The rapid expansion of 5G infrastructure and increasing adoption of electric and autonomous vehicles in the U.S. have also driven demand for high-density MLCCs capable of handling faster data transmission and power regulation. Moreover, the U.S. market benefits from close collaboration between academia, private industry, and government bodies like DARPA and NASA, accelerating the development of innovative capacitor technologies.

Considered in this report

• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report

• Multilayer Ceramic Capacitor Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Type

• General Capacitor
• Array
• Serial Construction
• Mega Cap
• Others

By End-use

• Electronics
• Automotive
• Industrial
• Telecommunication
• Data Transmission
• Others(Medical Electronics, Aerospace & Defense, Railways)

By Rated Voltage Range

• Low Range (Up to 50 V)
• Mid-range (100 V - 630 V)
• High Range (1000 V & above)

The approach of the report:

This report consists of a combined approach of primary as well as secondary research. Initially, secondary research was used to get an understanding of the market and listing out the companies that are present in the market. The secondary research consists of third-party sources such as press releases, annual report of companies, analyzing the government generated reports and databases.

After gathering the data from secondary sources primary research was conducted by making telephonic interviews with the leading players about how the market is functioning and then conducted trade calls with dealers and distributors of the market. Post this we have started doing primary calls to consumers by equally segmenting consumers in regional aspects, tier aspects, age group, and gender. Once we have primary data with us we have started verifying the details obtained from secondary sources.

Intended audience

This report can be useful to industry consultants, manufacturers, suppliers, associations & organizations related to this industry, government bodies and other stakeholders to align their market-centric strategies. In addition to marketing & presentations, it will also increase competitive knowledge about the industry.