市場調查報告書
商品編碼
1574161
射頻功率半導體市場 - 2024 年至 2029 年預測RF Power Semiconductor Market - Forecasts from 2024 to 2029 |
射頻功率半導體市場預計複合年成長率為 8.52%,從 2024 年的 239.22 億美元增加到 2029 年的 360.02 億美元。
RF 或射頻是一種用於確定電磁無線電波振盪速率的測量技術。電磁波的頻率較低,範圍為300GHz至9kHz。無線電波主要用於使用天線和發送器的無線通訊。高頻功率半導體是無線通訊電力電子中用作開關和整流器的裝置。
此外,砷化鎵材料預計將佔據射頻功率半導體的主導市場佔有率,因為它廣泛用於智慧型手機的射頻組件。砷化鎵由於其熱穩定性、高電子遷移率和低噪音而在市場上越來越受歡迎。此外,汽車、消費性電子、航太和國防等最終用戶產業將擴大看到射頻功率半導體的廣泛用途。
此外,5G 技術的日益普及和對無線網路的需求不斷成長也可能有助於未來幾年的市場擴張。然而,高生產成本和低利潤率可能會阻礙企業探索射頻功率半導體技術並抑制市場。
射頻功率半導體市場促進因素
推動全球射頻功率半導體元件市場的關鍵因素包括運算設備中 LTE(長期演進)和 5G 等無線網路的廣泛採用。
除此之外,平板電腦和智慧型手機等電子設備的使用不斷增加,以及射頻功率在照明應用中的廣泛採用,也大大刺激了全球市場的成長。
此外,射頻功率半導體廣泛應用於蜂窩和行動電話應用,這些射頻元件是蜂窩和行動無線基礎設施中所有基地台的基本組件,從而推動未來幾年的市場擴張。根據 Techjury 2023 年 IoT Insights 的資料,到 2023 年,全球物聯網設備數量將達到 144 億個,到 2025 年將達到 270 億個,到 2025 年將進一步達到 254 億個,預計還會成長。超過 400 個動態物聯網平台正在使用,5G 創新預計到 2023 年將使物聯網成員增加到 13 億。對蜂窩和行動無線需求的快速成長可能會對市場成長產生積極影響。
亞太地區將是一個快速成長的地區,特別是隨著 5G 網路在日本、印度和中國等國家的採用率不斷增加。此外,該地區家電和汽車行業的快速都市化和工業化將推動對高速連接的需求,從而刺激對射頻功率半導體的需求。該地區主要企業的新產品開拓也影響該地區的市場擴張。
例如,三菱電機計劃於 2024 年 2 月推出用於商務用手持雙向無線對講機的原型 6.5W 矽射頻高功率 MOSFET。該樣品透過 3.6V 單節鋰離子電池實現了業界領先的 6.5W 擊穿功率,預計將擴大商務用無線硬體的覆蓋範圍並降低功耗。商務用無線電產業預計將利用這種電池比傳統 7.2V 電池更低的成本來設計高功率的產品。
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The RF power semiconductor market is projected to grow at a CAGR of 8.52% to reach US$36.002 billion by 2029, from US$23.922 billion in 2024.
RF or Radio Frequency is a measurement technique that is used to ascertain the oscillation rate of electromagnetic radio waves. The frequency of electromagnetic radio waves ranges from 300 GHz to as low as 9 kHz. The radio waves are used mainly for wireless communication with the use of antennas and transmitters. The radio-frequency power semiconductor is a device that is used as a switch or rectifier in power electronics for wireless communication.
Additionally, the gallium arsenide material is expected to hold a dominant market share of RF power semiconductors due to its wide use in smartphone RF components. It has high thermal stability and electron mobility, with low noise which has caused to rise in its popularity in the market. Further, the end-user industries such as automotive, consumer electronics, aerospace, and defense will witness a rise in the utilization of RF power semiconductors for multiple purposes.
Further, the rising employment of 5G technology and the rising demand for wireless networks will contribute to the market expansion in the coming years. However, the high cost of production with a low profit margin could discourage companies from exploring RF power semiconductor technology which could restrain the market.
RF power semiconductor market drivers
The prime factor that drives the global market of RF power semiconductor devices includes the wide employment of wireless networks such as long-term evolution (LTE) and 5G across computing devices.
Apart from this, the increasing use of electronic devices such as tablets and smartphones and the intensive adoption of RF power in lighting applications also stimulate the global growth of the market significantly.
Moreover, RF power semiconductors are extensively utilized in cellular and mobile phone applications and these RF devices are fundamental components in all base stations for cellular and mobile wireless infrastructure, which will contribute to fuelling the market expansion in the coming years. According to Techjury data on IoT insights of 2023, IoT gadgets are anticipated to account for 14.4 billion by 2023 globally, with 27 billion associated by 2025, which will further grow the amount to 25.4 billion IoT devices by 2025. Over 400 dynamic IoT platforms are in utilization, and 5G innovation is anticipated to increment IoT with 1.3 billion memberships by 2023. The rapidly increasing requirement for cellular and mobile wireless will positively impact to the market growth.
Asia Pacific will be the fastest-growing region owing to the increasing penetration of the 5G network, especially in countries such as Japan, India, and China. Moreover, the rapid urbanization and industrialization such as the consumer electronics industry, and automotive industry in the region will promote the requirement for high-speed connectivity fuelling the demand for RF power semiconductors. The major regional players developing new products are also influencing the region's market expansion.
For instance, in February 2024, Mitsubishi Electric planned to release a prototype of its 6.5W silicon RF high-power MOSFET for commercial handheld two-way radios. This sample, which accomplishes an industry-leading 6.5W yield power from a 3.6V single-cell lithium-ion battery, is anticipated to expand the range and decrease power utilization of commercial radio hardware. The commercial radio industry is anticipated to design higher-power items utilizing these batteries, which are less costly than traditional 7.2V batteries.
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