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Semiconductor and IC Packaging Material Market Size, Share, and Analysis, By Type (Organic Substrate, Bonding Wires, Lead frames, Encapsulation Resins, Ceramic Packages, Die Attach Materials, Solder Balls, and Others), By Packaging Technology ((SOP), (GA), (QFN), (DFN), and Others), By End-User (Consumer Electronics, Automotive, Aerospace & Defense, IT & Telecommunication, Healthcare, and Others), By Region (North America, Europe, Asia-Pacific, and Rest of the World), And Regional Forecast 2024-2034
Semiconductor and IC Packaging Material Market is projected to exhibit a Compound Annual Growth Rate (CAGR) of 9.4% during the forecast span from 2024 to 2034. In 2023, the market size was assessed at USD 32.4 billion and is projected to reach USD 86.7 billion by the completion of 2034.
Packaging materials for semiconductors and integrated circuits are an important part of the production of electronic devices. These components function as protective casings for the fragile semiconductor chip and offer physical support and heat regulation. They aim to protect the chips from elements like moisture, dust, and physical pressure. In addition, packaging materials consist of ceramic packages, plastic packages, and advanced materials such as silicon and glass. They include parts such as lead frames and interconnects that help establish electrical links between the chip and the external circuitry. Furthermore, the correct choice and use of these materials are important for ensuring the dependability and effectiveness of semiconductor devices in different industries such as computing, telecommunications, automotive, and consumer electronics.
Semiconductor and IC Packaging Material Market is expected to reach USD 86.7 billion during the forecast period, due to the growing need for advanced electronic devices and the reduction in the size of components. The continuous development of semiconductor technology has resulted in a high demand for advanced packaging materials that can support smaller sizes. Additionally, important factors are influencing this market such as the adoption of wafer-level packaging methods, the innovation of eco-friendly and halogen-free materials, and the integration of thermal interface materials for efficient heat dispersion. Furthermore, major companies in this industry are consistently putting money into research and development to bring new materials and methods that can boost the dependability of the device, along with decreasing packaging dimensions.
Source: Fatpos Global
Semiconductor and IC packaging material market is divided based on Types into Organic Substrate, Bonding Wires, Lead frames, Encapsulation Resins, Ceramic Packages, Die Attach Materials, Solder Balls, and Others. The organic substrates segment is set to dominate the semiconductor & IC packaging material market, owing to their outstanding properties and versatility. These materials are comprised of polymer-based substances such as epoxy resins or polyimides, that provide multiple benefits compared to conventional packaging materials. In addition, organic materials are important for creating dense interconnections and fine wiring in advanced chips to support a growing number of I/O connections. Their adaptability and slim design also help in the creation of small and light electronic devices. Therefore, organic substrates are in a good position to meet the changing needs of the semiconductor industry due to the high demand for smaller sizes, better performance, and lower costs.
Semiconductor and IC packaging material market is divided based on Packaging Technology into SOP, GA, QFN, DFN, and Others. The SOP, or small outline package, segment is expected to lead the semiconductor and IC packaging material market. This is due to the cost-effectiveness of SOP packages, which makes them appealing for various applications. SOP packages are versatile and accommodate different lead counts and pin configurations. They have a gull-wing lead design, which makes automated surface mount assembly easier and lowers manufacturing expenses. Furthermore, the large use of SOP packages has led to well-established supply chains and production processes. Thus, SOP packages are in a prime position to retain their lead due to their small size and thermal efficiency.
Source: Fatpos Global
Rapid Advances in Technology is a Significant Growth Driver
Fast progression of technologies such as 5G, AI, and IoT is creating a huge demand for advanced semiconductor devices that have high performance and reliability. 5G needs semiconductor components that have excellent thermal management and electrical properties to manage high frequencies and data rates effectively. AI and IoT programs require processors with better computational power and memory, which need advanced packaging solutions that can handle higher transistor densities and electrical performance. This innovation in technology results in the creation and incorporation of new materials and packaging methods that can improve the efficiency of semiconductor devices.
Growing Trend towards Size Reduction and the Need for Better Performance in Electronic Devices
Consumer electronics sector is always reducing the size of devices while improving their performance. This requires semiconductor packages that are smaller and more efficient. In addition, modern packaging methods such as flip-chip, ball grid array (BGA), and chip-scale packages (CSP), provide better electrical connection and structural support in a small size. Moreover, the automotive industry's shift to electric vehicles (EVs) and advanced driver-assistance systems (ADAS) requires high-performance semiconductors that are capable of enduring tough conditions. Comparably, smaller is better for medical devices since it improves the functionality and portability of therapeutic and diagnostic equipment. Thus, the demand for packaging materials is attributed to the continuous need for small size and higher performance across all industries.
High Cost and Complexity Associated with Advanced Packaging Technologies
With the growing desire for compact and efficient electronic devices, the industry is under growing pressure to use advanced packaging solutions such as 3D ICs and system-in-package. However, these methods require substantial funding for research and expert staff, thus making them unaffordable for smaller businesses. In addition, incorporating extra materials to improve thermal management and electrical performance leads to higher expenses. This financial challenge has the potential to impact the implementation of new packaging solutions, as businesses may face various challenges in reaching cost efficiencies or might be uncertain about investing in new technologies due to uncertain return on investment.
Semiconductor and IC packaging material market is segmented based on regional analysis into five key regions: North America, Latin America, Europe, Asia Pacific, and the Middle East and Africa. The semiconductor and IC packaging material market in the Asia Pacific region is led by major manufacturing hubs and a strong supply chain. China, Taiwan, South Korea, and Japan dominate the electronics industry, which also pushes the need for packaging materials. Additionally, the focus on technology and the adoption of recent innovations like 5G & the Internet of Things contribute to the dominance of the Asia Pacific region.
Meanwhile, significant growth in this market is also observed across the North American region. Due to the region's commitment to research & development and the presence of leading semiconductor businesses, there is a demand for innovative packaging solutions. As a result, the market is growing across the North American region owing to the rise of industries such as consumer electronics and automotive electronics.
Source: Fatpos Global
Semiconductor and IC packaging materials market was greatly affected by the COVID-19 pandemic. At first, production delays were caused by supply chain disruptions and a shortage of workers. The automobile sector, which heavily depends on semiconductors, also faced a reduction but eventually recovered as economies reopened. Additionally, the need for advanced semiconductor components and packaging materials also saw a rise due to the use of 5G technology and heavy investments in data centers. However, logistical difficulties and international concerns presented multiple problems. Thus, the pandemic highlighted the significance of semiconductors in modern technology infrastructure, thus encouraging reforms in manufacturing and supply chain management.
ATTRIBUTE |
DETAILS |
Study Period |
2018-2034 |
Base Year |
2023 |
Forecast Period |
2024-2034 |
Historical Period |
2019-2022 |
Growth Rate |
CAGR of 9.4% from 2024-2034 |
Unit |
Value (USD Billion) |
Segmentation |
Main Segments List |
By Types |
|
By Packaging Technology |
|
By End-User |
|
By Region |
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Semiconductor and IC Packaging Material Market size was valued at USD 32.4 billion in 2023 and is projected to reach the value of USD 86.7 billion in 2034, exhibiting a CAGR of 9.4% during the forecast period.
The semiconductor and IC packaging material market refers to the industry supplying materials for packaging integrated circuits and semiconductor devices.
The Organic substrate and Small Outline Package (SOP) segment accounted for the largest Semiconductor and IC Packaging Material Market share.
Key players in the Semiconductor and IC Packaging Material Market include LG Chem Ltd., Jiangsu ChangJian Technology Co., Ltd., Henkel AG & Co. KGaA, Kyocera Corporation, ASE, Siliconware Precision Industries Co., Ltd., Amkor Technology, Texas Instruments, IBIDEN CO., Ltd., Powertech Technology Inc., Chipmos Technologies, Tong Hsing Electronic Industries, Nepes Corporation, Shinko Electric Industries, Daeduck Electronics, and Other Prominent Players.
Rapid advances in technology and a growing trend toward size reduction are the factors driving the semiconductor and IC packaging material market.
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