Precedence Research’s latest report on the global compound semiconductor market provides an analysis for the period of 2016 to 2027, wherein, 2020 is the base year, 2016 and before is historical data, and 2020 to 2027 is the forecast period.
The global compound semiconductor market size was valued at US$ 32.5 Billion in 2019 and is projected to reach US$ 44.52 Billion by 2027, rising at a market growth (CAGR) of 6.2% during the forecast period.
Precedence Research provides an in-depth analysis of market size, share analysis, Industry growth, market valuation, market dynamics which includes drivers, restraints, opportunities, trends, challenges, market segmentation, competitive landscape, regional and country breakdowns, and strategies for compound semiconductor market. The study reviews the global industry by-products or services offered, downstream fields, end using customers, historic data figures regarding revenue and sales, market context, and more.
The report comprises a detailed value chain analysis, which provides a comprehensive view of this market. The Porter’s Five Forces model for the global market has also been included to help understand the competitive landscape. The study covers market attractiveness analysis, wherein resin types are benchmarked based on their market value, growth rate, and general attractiveness.
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Compound semiconductors are referred as semiconductors that are made from two or more elements from different groups in the periodic table, and are synthesized using various deposition technologies. Devices made from semiconductors are an essential component of various electronic circuits, as they possess unique features such as high current & voltage holding capacity, high operational temperatures, wide band gap, and ability to generate microwave signals.
Compound semiconductors offer significant performance advantages over silicon semiconductors that are highly essential for a growing range of technology applications. Compound semiconductors such as InP and GaAs can operate at speeds that have higher magnitudes compared to silicon. Additionally, compound semiconductors can receive and generate broad range of electromagnetic spectrum ranging from high frequency ultraviolet visible light to long wavelength infrared light. Other properties offered by the compound semiconductor material include communications (lasers and receivers for fiber-optics) and ability to sense and emit light in the form of general lighting (LEDs).
Increasing demand for high speed and efficiency products has prominently driven the market growth for compound semiconductors in the recent past. Integration of high-end technologies such as artificial intelligence, machine learning, and Internet of Things (IoT) in the communication sector to enhance its performance is the other prime factor that boosts the market growth. Further, increasing usage of compound semiconductor in various electronic applications that include electronic wafer, film coatings, and integrated circuits expected to drive the market prominently over the next few years. Automotive industry has witness dramatic changes in the recent past due to rising advancement in the electronic products. Automotive innovations such as electric vehicle and autonomous cars have fulfilled the maximum required integration of semiconductor electronics in the automotive sector. The aforementioned factor fuels the market growth prominently.
However, high fabrication and material cost may hamper the market growth in the near future. The prices of compound semiconductor products are much higher as compared to silicon semiconductors due to complex manufacturing processes and usage of high-priced state-of-the-art equipment during fabrication.
In 2019, the Asia Pacific accounted for the major market value share of around 45% in the global compound semiconductor market and projected to register the fastest growth over the analysis period. Escalating growth of consumer electronics and automotive industry in the region are the prime factor that propels the market growth. In addition, the region is highly lucrative for the implementation of advanced and up-coming technologies such as artificial intelligence, machine learning, big data, and analytics.
- In 2019, the Asia Pacific captured maximum revenue share of nearly 50% in the global compound semiconductor market in 2019. In addition, the region analyzed to witness the highest growth over the forecast period. This is mainly due to the escalating demand of consumer electronic products along with significant penetration of wireless communication technologies in the region.
- North America and Europe are the other significant revenue contributors in the global compound semiconductor market. Their growth is mainly attributed to the escalating development of automotive and telecommunication sectors. Advent of electrification of vehicles, artificial Intelligence, and digitalization has significantly propelled the market growth in above mentioned regions.
- By application, IT & Telecom accounted for the major market value share of nearly 45% in 2019 and expected to witness substantial growth over the analysis period. This is attributed to rising demand for semiconductor elements in wireless and mobile communications. However, consumer electronics projected to register the most lucrative growth rate during the forecast period.
Key Players & Strategies
The global compound semiconductor market is highly competitive and fragmented with the presence of numerous market players. These players are largely focused towards product development and enhancement to cater the rapidly changing consumer need. For instance, in May 2020, OSRAM launched a new 24V TEC Flex family that provides uniform illumination over a broad range of outdoor and indoor applications. TEC Flex Tunable White (TW) can be implemented for continuous modulation of color temperature ranging from 2700K to 6500K during maintenance of high color yield. Some of the market participants are also looking towards inorganic growth strategies such as merger & acquisition, partnership, and collaboration with other players in the value chain. For instance, in February 2020, Qorvo acquired Decawave, a Ireland-based company that is a pioneer in ultra-wideband (UWB) technology and offer UWB solutions for automobile, mobile, and IoT applications.
Some of the key players operating in the market are Nichia Corporation, Cree Inc., Qorvo, Samsung Electronics, Taiwan Semiconductor Manufacturing Company Ltd., STMicroelectronics NV, NXP Semiconductor N.V., Texas Instruments Inc., Renesas Electronics Corporation, and Infineon Technologies AG among others.
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