Global Active Electronic Components Market Outlook, 2030

The global active electronic components market spanning semiconductors, power devices, sensors, optoelectronics, and integrated circuits sits at the intersection of culture, technology, and policy as “always-on” digital lifestyles normalize streaming, remote work, gaming, wearables, and cashless payments across generations and geographies. This cultural shift prizes miniaturization, seamless connectivity, low latency and battery longevity, which in turn drives demand for high-density logic, efficient power management ICs, RF front ends, and advanced sensors. Urbanization intensifies these needs: as megacities expand, smart-city rollouts require edge computing nodes, 5G/FTTx densification, intelligent transportation systems, e-mobility charging, distributed renewable integration, surveillance and public-safety networks, HVAC optimization, and water/utility metering each a stack of MCUs/MPUs, power semis (Si, SiC, GaN), ADC/DACs, memory and connectivity chips. The growing popularity of premium and ultra-luxury automobiles significantly impacts the automotive active electronic components industry. In July 2022, NXP Semiconductors announced a collaboration agreement with Hon Hai Technology Group to create platforms for a new generation of smart connected automobiles. Hon Hai, an electronics manufacturer and technology solution provider, aims to leverage NXP's automotive technology portfolio and long-standing experience in safety and security to offer architectural innovation and platforms for electrification, connectivity, and safe autonomous driving which in turn will drive the demand of active electronic components in automotive industry. For example, Bosch and BYD already had their own wafer fabs for producing power components that were self-designed. Federal programs and international strategic alliances will also fuel market expansion. For instance, in January 2023, the India Electronics and Semiconductor Association (IESA) and the U.S. Semiconductor Industry Association mutually announced plans to establish a commercial task group to improve cooperation between the two nations in the global semiconductor environment.

According to the research report “Global Active Electronic Components Market Outlook, 2030” published by Bonafide Research, the global Active Electronic Components market is projected to reach market size of USD 535.94 Billion by 2030 increasing from USD 354.38 Billion in 2024, growing with 7.29% CAGR by 2025-30.The growing consumer demand for smart devices, such as smartphones, tablets, smart wearables, and IoT devices, acted as a major driver for the active electronic components market. These devices heavily rely on active components like semiconductors, ICs, and display devices to enable their functionalities. For example, in 2022, the demand for smartphones continued to rise, with manufacturers incorporating advanced semiconductor devices and display technologies to enhance performance and user experience. For instance, the adoption of 5G networks gained momentum in 2022, driving the demand for active components such as transceivers and amplifiers to support higher data speeds and connectivity. The rollout of 5G and upcoming 6G networks also represents a massive growth catalyst, as infrastructure requires high-frequency RF semiconductors, optoelectronic transceivers, and low-latency processing chips. Interestingly, the shift toward sustainability has become a defining market opportunity, where energy-efficient active components directly contribute to reducing carbon footprints across industries, from EVs to data centers. Moreover, the industry is driven by enterprises' efforts to develop GPS. For instance, the mapping solutions company Esri India debuted a platform in January 2024 that will offer businesses, institutions, and state governments access to data-driven policymaking. The granular data provided by the interactive ""Policy Maps"" can be used to analyze the progress made. Another fascinating fact is that while Moore’s Law is slowing in transistor scaling, innovation in packaging, chiplet architectures, and heterogeneous integration is extending performance gains, meaning growth is now being fueled not just by physics but also by creative design.

Market Drivers

• Rising Demand for Consumer Electronics: One of the strongest drivers for the global active electronic components market is the surge in consumer electronics consumption, including smartphones, laptops, tablets, and wearables. As global urbanization accelerates and disposable incomes rise, especially in developing economies, the need for smarter, compact, and energy-efficient devices is growing rapidly. Active components like transistors, diodes, and integrated circuits (ICs) form the backbone of these products, enabling faster processing, improved connectivity, and multifunctional performance.
• Growing Automotive Electronics and Electric Vehicles (EVs): Another key growth driver is the increasing integration of electronics into automobiles, particularly in electric vehicles (EVs), hybrid vehicles, and connected cars. Modern vehicles rely heavily on active electronic components for power management, battery systems, infotainment, advanced driver assistance systems (ADAS), and autonomous driving technologies. The global push toward sustainable mobility, supported by government regulations and incentives, is accelerating EV adoption, creating robust demand for semiconductor devices, microcontrollers, and power electronic components.

Market Challenges

• Supply Chain Disruptions and Semiconductor Shortages: The biggest challenges faced by the industry is supply chain instability, particularly the global semiconductor shortage witnessed in recent years. Factors like geopolitical tensions, raw material scarcity, and disruptions caused by global events have constrained production and increased lead times. The heavy dependence on a few countries for semiconductor manufacturing, such as Taiwan and South Korea, creates vulnerabilities in the supply chain. These shortages impact industries ranging from consumer electronics to automotive, leading to price volatility and delayed product launches, posing a significant hurdle for market stability and growth.
• High R&D and Production Costs: The development of advanced active electronic components, especially in areas like nanotechnology, AI-enabled chips, and 5G communication systems, requires massive investments in research, design, and manufacturing infrastructure. Companies face intense competitive pressure to innovate quickly while keeping costs under control. Additionally, the miniaturization of components while enhancing performance involves complex fabrication processes that drive up production costs.

Market Trends

• Miniaturization and Integration of Components: A dominant trend in the active electronic components market is the move toward miniaturization and higher integration of multiple functions into single chips. With consumers and industries demanding compact, lightweight devices, manufacturers are investing in System-on-Chip (SoC) and 3D integrated circuit technologies. This trend not only improves device performance but also reduces power consumption, heat generation, and space requirements, which is vital in applications like wearables, IoT devices, and portable medical equipment.
• Shift Toward Renewable Energy and Smart Grids: Another significant trend is the rising demand for active components in renewable energy systems and smart grid infrastructure. Solar panels, wind turbines, and energy storage systems rely on advanced electronic components for power conversion, regulation, and efficiency optimization. As governments and organizations prioritize clean energy transitions, the demand for high-performance semiconductors, power transistors, and microcontrollers is expanding rapidly.

Semiconductor devices such as transistors, diodes, and integrated circuits (ICs) lead the global active electronic components industry due to their central role in powering modern electronic systems, enabling miniaturization, high-speed performance.

Semiconductor devices, including transistors, diodes, and integrated circuits (ICs), are the backbone of the global active electronic components industry because they form the fundamental building blocks of nearly every electronic system. Their dominance can be attributed to their unmatched ability to control, amplify, and regulate electrical signals efficiently while supporting the growing demand for compact, energy-efficient, and high-performance devices. Transistors, for example, act as essential switches and amplifiers in both analog and digital circuits, enabling the seamless functioning of processors, memory units, and power management systems. Similarly, diodes play a crucial role in signal rectification, voltage regulation, and protection of sensitive circuits from power surges, making them indispensable in consumer electronics, industrial automation, and communication equipment. The integration of millions of these components into a single chip, known as an integrated circuit (IC), has revolutionized technology by allowing miniaturization and cost-effectiveness, paving the way for advancements in smartphones, laptops, medical devices, and IoT-enabled solutions. The surge in demand for high-speed connectivity, artificial intelligence (AI), 5G infrastructure, and electric vehicles (EVs) further highlights the importance of semiconductors, as they provide the computational power, sensing capabilities, and efficient energy management required to support these next-generation technologies. Moreover, government initiatives worldwide to boost domestic semiconductor manufacturing, coupled with continuous innovations like system-on-chip (SoC), power semiconductors, and advanced packaging technologies, are fueling further growth and cementing their leadership position.

Consumer electronics lead the global active electronic components industry because of their massive demand for semiconductors, ICs, and other active devices that enable functionality, connectivity, and miniaturization in smartphones, laptops, wearables, and smart home appliances.

The consumer electronics sector stands as the leading end-user in the global active electronic components industry primarily due to the exponential rise in demand for smart, connected, and energy-efficient devices in everyday life. Products such as smartphones, laptops, tablets, wearables, televisions, gaming consoles, and smart home appliances rely heavily on transistors, diodes, and integrated circuits (ICs) to deliver high performance, compact design, and seamless connectivity. Modern consumers expect devices that are not only powerful but also portable and multifunctional, which is only possible through the integration of advanced active electronic components. For instance, microprocessors and system-on-chip (SoC) solutions drive computing and communication functions in mobile devices, while power management ICs ensure energy efficiency and longer battery life two critical requirements for consumer satisfaction. Furthermore, the rapid penetration of internet-enabled devices and IoT ecosystems has significantly increased the demand for semiconductors that can handle high-speed data transfer, wireless communication, and sensor integration. This trend is reinforced by the rollout of 5G networks, which requires smartphones, tablets, and connected devices to adopt advanced active components capable of supporting ultra-fast data rates and low-latency applications. Another major growth driver is the rising popularity of wearable devices such as smartwatches, fitness trackers, and augmented reality (AR)/virtual reality (VR) headsets, all of which depend on compact, power-efficient semiconductor devices for their core functionality. In addition, the push toward smart homes and digital entertainment has fueled demand for active electronic components in smart TVs, voice assistants, streaming devices, and advanced sound systems.

Conventional technology leads the global active electronic components industry because it remains the foundation of mass-produced electronic devices, offering proven reliability, cost efficiency, and scalability that drive widespread adoption across consumer, industrial, and communication applications.

Unlike emerging or specialized technologies that are still evolving or limited to niche applications, conventional technologies such as bipolar junction transistors (BJTs), diodes, and traditional integrated circuits (ICs) are time-tested, widely adopted, and supported by decades of development, ensuring consistent performance and affordability. Their large-scale production benefits from well-established supply chains and mature manufacturing processes, making them cost-effective and accessible for mass-market products such as televisions, radios, smartphones, computers, and home appliances. This cost advantage is particularly important in price-sensitive markets like Asia-Pacific, where high consumer demand and rapid urbanization are driving the adoption of affordable electronics. Additionally, conventional technologies offer proven reliability and stability, critical for applications in telecommunications, industrial control systems, and automotive electronics where consistent performance is valued over experimental innovations. The adaptability of these technologies has also kept them relevant in newer applications; for instance, conventional ICs are still widely used in power management, analog processing, and embedded systems, even in advanced devices like IoT-enabled appliances and smart wearables. Moreover, their compatibility with existing infrastructure ensures a smoother integration process, reducing barriers for manufacturers and end-users alike. Another factor supporting their dominance is the global shortage of advanced semiconductor chips, which has led many industries to rely more heavily on conventional components that are easier to produce and source.

Asia-Pacific (APAC) leads the global active electronic components industry due to its dominance in semiconductor manufacturing, rapid consumer electronics demand, strong government support, and the presence of key global technology hubs.

The Asia-Pacific (APAC) region holds the leading position in the global active electronic components industry because it combines large-scale manufacturing capabilities, booming consumer demand, and strategic government initiatives that foster technological growth. Countries such as China, Japan, South Korea, Taiwan, and India have emerged as global powerhouses in semiconductor production and electronics assembly, housing some of the world’s largest chip manufacturers and electronics giants. Taiwan’s TSMC, South Korea’s Samsung Electronics, and Japan’s Renesas are prime examples of industry leaders that provide the backbone for global integrated circuits (ICs), transistors, and diodes. This concentration of advanced fabrication facilities ensures not only cost efficiency but also technological leadership, giving APAC an edge over other regions. Additionally, the region’s rapidly expanding consumer base drives massive demand for smartphones, laptops, wearables, and smart home devices, all of which are heavily dependent on active electronic components. China and India, with their large populations and growing middle classes, account for a significant share of global consumer electronics consumption, creating a continuous cycle of demand for semiconductors and ICs. Furthermore, APAC has become the epicenter of 5G infrastructure deployment, electric vehicle (EV) adoption, and industrial automation, each of which relies on high-performance active components for processing, communication, and power management. For example, India’s Production Linked Incentive (PLI) scheme and China’s “Made in China 2025” initiative are designed to boost local electronics manufacturing and semiconductor production.

• In April 2025, Cybord, the leading company of advanced AI-powered electronic component analytics, launched its ShieldScan, an advanced visual-AI printed circuit board assembly (PCBA) inspection solution that delivers unprecedented visibility and security in electronics manufacturing.
• In November 2024, Texas Instruments introduced a new series of active electronic components designed to improve the performance of electric vehicles (EVs). These components focus on enhancing power management and battery efficiency, addressing the growing demand for energy-efficient solutions in the automotive sector.
• In October 2024, Analog Devices launched a next-generation power amplifier aimed at 5G applications. The new component features advanced signal processing capabilities to support the high-speed data transmission required for 5G networks, catering to the increasing demand for efficient active components in telecommunications.
• In September 2024, Intel Corporation launched its new Core Ultra 200V series mobile processors, offering significant advancements in AI, graphics, and energy efficiency for laptops. Featuring AI Acceleration and integrated GPU upgrades, the processors are designed to handle intensive computing tasks with reduced power consumption. These chips are targeted at a range of applications, from gaming to creative content production, enhancing both performance and battery life.
• In September 2024, Qualcomm Inc. introduced new advancements for PC users with its Snapdragon X Plus, boosting performance in AI-powered features like Copilot. This processor enhances productivity, collaboration, and entertainment with AI acceleration and superior efficiency. Qualcomm is positioning itself as a leader in AI-driven computing solutions, aiming to optimize experiences in connected PCs while maintaining high energy efficiency and powerful processing capabilities.
• In September 2024, Infineon Technologies unveiled a new range of microcontrollers designed for industrial automation systems. These active components focus on improving processing power and connectivity, responding to the growing demand for smarter and more efficient automation solutions in various industries.
• In August 2024, NXP Semiconductors introduced a new series of integrated circuits (ICs) optimized for automotive safety applications. These ICs are designed to enhance in-vehicle electronics systems, meeting the rising demand for advanced safety features in modern vehicles.
• In January 2024, Frore Systems introduced the AirJet Mini Slim, an improved version of its renowned solid-state active cooling device, at CES 2024. The AirJet Mini Slim is a slimmer, lighter, and smarter iteration of the AirJet Mini introduced a year ago that can sense its temperature and clean itself. Show more