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市場調查報告書
商品編碼
1758929
全球基頻處理器市場Baseband Processor |
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到 2030 年,全球基頻處理器市場規模將達到 644 億美元
全球基頻處理器市場規模預計在2024年為405億美元,預計到2030年將達到644億美元,2024年至2030年的複合年成長率為8.0%。本報告分析的細分市場之一-4G細分市場,預計其複合年成長率為7.5%,到分析期結束時規模將達到380億美元。 5G細分市場在分析期間內的複合年成長率預計為9.4%。
美國市場規模將達 106 億美元;中國市場預期複合年成長率為 7.8%
美國基頻處理器市場規模預估2024年達到106億美元。作為世界第二大經濟體,中國預計在2030年市場規模將達到103億美元,在2024年至2030年的分析期間內,複合年成長率為7.8%。其他值得關注的區域市場包括日本和加拿大,預計在分析期間內,複合年成長率分別為7.3%和6.9%。在歐洲,預計德國的複合年成長率約為6.5%。
全球基頻處理器市場-主要趨勢與促進因素摘要
為什麼基頻是現代行動通訊的核心
基頻基頻是無線通訊設備的核心元件,是處理所有蜂巢式無線電功能的主要引擎,包括訊號調變、解調、編碼、解碼和運作通訊協定堆疊。隨著行動電話發展成為功能豐富、速度更快的運算平台,對更強大、更有效率的基頻的需求也日益成長。這些晶片在支援智慧型手機、平板電腦、穿戴式裝置和物聯網裝置無縫連接到蜂巢式網路(如 3G、4G LTE 以及最新的 5G)方面發揮關鍵作用。透過減輕主應用處理器的通訊負擔,基頻即使在具有挑戰性的網路條件下也能保持高效的功耗並確保穩定的連接。行動網路通訊協定日益複雜,尤其是 5G 新無線電 (NR) 的推出,需要更複雜的基頻設計,以支援更高的資料速率、載波聚合、超低延遲和 MIMO 等先進天線技術。此外,這些處理器還有助於與語音和資訊服務、漫遊功能以及全球導航衛星系統 (GNSS) 功能的整合。它們整合到系統單晶片 (SoC) 架構中,使得行動裝置體積更小、更具成本效益,從而提升了效能和價格。隨著互聯互通成為日常生活中的基本功能,基頻對於確保跨地域、跨網路代數和跨裝置類別的無縫通訊至關重要。作為互聯互通基礎設施的核心,基頻是個人電子產品和工業應用領域持續數位轉型的重要基礎要素。
5G將如何徹底改變基頻處理器的功能和設計?
向 5G 技術的過渡正在顯著改變全球市場架構、能力和競爭格局。與前幾代技術不同,5G 需要在資料處理能力、能效以及多頻段和多模相容性方面實現顯著飛躍,以支援從增強型行動寬頻到超可靠低延遲通訊(URLLC) 等各種使用案例。基頻處理器現在必須處理海量資料、協調大規模 MIMO 配置,並支援毫米波 (mmWave) 和 6 GHz 以下頻段。為了滿足這些需求,晶片製造商正在利用 5 奈米以下的先進半導體節點、基於人工智慧的訊號處理演算法和異構運算架構來提升處理能力,同時又不影響能源效率。此外,許多製造商正在從獨立基頻設計轉向整合人工智慧引擎、GPU 和專用安全模組的全整合 SoC,為 5G 智慧型手機和連網裝置提供理想的緊湊型一體化解決方案。面向物聯網和工業用例的 5G 精簡功能 (RedCap) 的出現也影響基頻設計,它優先考慮功耗最佳化、降低複雜性以及降低頻寬,以滿足那些不需要 5G 全部功能的設備的需求。同時,5G 網路切片和軟體定義網路整合正在推動可程式基頻平台的發展,這些平台能夠即時適應多樣化的服務需求。這些發展不僅將基頻轉變為高效能數位核心,也定義了半導體、通訊基礎設施和消費性電子交叉領域企業的策略方向。
基頻生態系中的市場動態與區域需求模式如何演化?
全球基頻處理器市場受到區域需求趨勢、競爭策略和技術在地化努力的複雜影響。以中國大陸、韓國、台灣和印度為首的亞太地區憑藉其龐大的消費群、蓬勃發展的智慧型手機製造業以及積極的 5G 推廣策略佔據市場主導地位。在持續的地緣政治緊張局勢下,中國正致力於半導體自力更生,以減少對西方晶片製造商的依賴,政府大力支持海思半導體(華為)和紫光展銳等國內基頻製造商。在美國和歐洲,旗艦新興企業的高性能要求以及支援 5G 的新創公司和汽車應用推動基頻創新。總部位於美國的高通憑藉其高階基頻解決方案繼續佔據主導地位。同時,聯發科繼續擴大其全球業務,為中階和入門級設備提供越來越多的經濟高效的 4G 和 5G 晶片組合。此外,越來越多的產業,包括連網工業設備、智慧城市、擴增實境(AR) 和車聯網 (V2X)通訊系統,都需要透過高效的基頻平台實現嵌入式連接。在國防、衛星通訊和私人網路領域,隨著政府和企業優先考慮安全和自主連接,對低功耗、高安全性基頻處理器的需求日益成長。同時,Open RAN(無線接取網路)計畫正在重塑通訊設備格局,推動對能夠與更廣泛的網路元件介面的模組化基頻解決方案的需求。這種不斷變化的環境迫使製造商重新思考其硬體和軟體整合策略,並使其產品藍圖與特定地區的監管、安全和效能要求保持一致。
推動全球基頻處理器市場成長的因素是什麼?
全球基頻處理器市場的成長受到多種因素的驅動,這些因素與通訊技術的進步、最終用戶應用的多樣化以及全球連通性的擴大直接相關。其中的核心是 5G 網路在全球範圍內的廣泛採用,從而對能夠處理高速、低延遲無線資料的先進基頻產生了持續的需求。隨著每一代新一代智慧型手機都要求改進連接性,行動裝置製造商越來越依賴尖端基頻解決方案來保持競爭力。消費性物聯網領域連網型設備(包括智慧型手錶、健身追蹤器、智慧家庭系統和穿戴式裝置)的爆炸性成長也推動了針對短距離無線通訊協定和窄頻物聯網標準最佳化的超低功耗基頻處理器的需求。在工業環境中,工業 4.0 技術的興起正在推動採用強大的基頻處理器來為需要可靠即時通訊的邊緣設備、感測器和自動化系統供電。汽車遠端資訊處理、自動駕駛和資訊娛樂系統代表著另一個高成長領域,因為它們越來越依賴蜂窩連接進行導航、診斷和 V2X通訊。此外,基於衛星的網路計畫和新興國家農村寬頻計畫的擴展正在為客製化基頻平台創造新的使用案例,以擴大覆蓋範圍並增強彈性。此外,整合基頻、AI 和 GPU 功能的整合 SoC 的趨勢正在降低設計複雜性和開發成本,刺激高階和入門級設備的採用。半導體公司、通訊業者和OEM之間的策略夥伴關係正在進一步加速創新和市場滲透。總之,這些力量使基頻處理器不再只是通訊組件,而是互聯數位經濟的核心推動者。
部分
類型(4G類型、5G類型、其他類型)、應用程式(智慧型手機應用程式、平板電腦應用程式)
人工智慧整合
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Global Baseband Processor Market to Reach US$64.4 Billion by 2030
The global market for Baseband Processor estimated at US$40.5 Billion in the year 2024, is expected to reach US$64.4 Billion by 2030, growing at a CAGR of 8.0% over the analysis period 2024-2030. 4G Type, one of the segments analyzed in the report, is expected to record a 7.5% CAGR and reach US$38.0 Billion by the end of the analysis period. Growth in the 5G Type segment is estimated at 9.4% CAGR over the analysis period.
The U.S. Market is Estimated at US$10.6 Billion While China is Forecast to Grow at 7.8% CAGR
The Baseband Processor market in the U.S. is estimated at US$10.6 Billion in the year 2024. China, the world's second largest economy, is forecast to reach a projected market size of US$10.3 Billion by the year 2030 trailing a CAGR of 7.8% over the analysis period 2024-2030. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at a CAGR of 7.3% and 6.9% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 6.5% CAGR.
Global Baseband Processor Market - Key Trends & Drivers Summarized
Why Are Baseband Processors the Cornerstone of Modern Mobile Communications?
Baseband processors are critical components that lie at the heart of wireless communication devices, serving as the primary engine for handling all cellular radio functions, including signal modulation, demodulation, encoding, decoding, and protocol stack execution. As mobile phones evolve into multi-functional, high-speed computing platforms, the demand for more powerful and efficient baseband processors has intensified. These chips play a crucial role in enabling smartphones, tablets, wearables, and IoT devices to seamlessly connect to cellular networks such as 3G, 4G LTE, and increasingly, 5G. By offloading the communication workload from the main application processor, baseband processors help maintain efficient power consumption and ensure robust connectivity even under challenging network conditions. The increasing complexity of mobile network protocols, especially with the rollout of 5G NR (New Radio), necessitates more sophisticated baseband designs that support higher data rates, carrier aggregation, ultra-low latency, and advanced antenna technologies like MIMO. Additionally, these processors facilitate voice and data services, roaming capabilities, and integration with GNSS (Global Navigation Satellite System) functionalities. Their integration into System-on-Chip (SoC) architectures is enabling the miniaturization and cost-effectiveness of mobile devices, enhancing both performance and affordability. As connectivity becomes a basic utility in daily life, baseband processors are indispensable in ensuring seamless communication across regions, network generations, and device categories. Their centrality to connectivity infrastructure makes them a foundational element in the ongoing digital transformation of both personal electronics and industrial applications.
How Is 5G Revolutionizing the Capabilities and Design of Baseband Processors?
The transition to 5G technology is dramatically reshaping the architecture, capabilities, and competitive landscape of the global baseband processor market. Unlike previous generations, 5G demands a significant leap in data processing power, energy efficiency, and integration of multi-band, multi-mode compatibility to support diverse use cases ranging from enhanced mobile broadband to ultra-reliable low-latency communication (URLLC). Baseband processors must now handle vastly more data, orchestrate massive MIMO configurations, and support millimeter-wave (mmWave) and sub-6 GHz frequencies-each of which presents unique design and thermal challenges. To meet these demands, chipmakers are leveraging advanced semiconductor nodes (such as 5nm and below), AI-based signal processing algorithms, and heterogeneous computing architectures to boost processing capabilities without compromising power efficiency. Furthermore, many manufacturers are transitioning from standalone baseband designs to fully integrated SoCs that incorporate AI engines, GPUs, and dedicated security modules, providing a compact, all-in-one solution ideal for 5G smartphones and connected devices. The arrival of 5G RedCap (Reduced Capability) for IoT and industrial use cases is also influencing baseband design by prioritizing power optimization, reduced complexity, and lower bandwidth for devices that do not require full 5G capabilities. In parallel, 5G network slicing and software-defined network integration are prompting the development of programmable baseband platforms that can adapt in real time to diverse service requirements. These developments are not only transforming baseband processors into high-performance digital cores but are also defining the strategic direction of companies that operate at the intersection of semiconductors, telecom infrastructure, and consumer electronics.
How Are Market Dynamics and Regional Demand Patterns Evolving in the Baseband Ecosystem?
The global baseband processor market is being shaped by a complex interplay of regional demand trends, competitive strategies, and technology localization efforts. Asia-Pacific, led by China, South Korea, Taiwan, and India, dominates the market due to its massive consumer base, thriving smartphone manufacturing sector, and aggressive 5G deployment strategies. China’s focus on self-reliance in semiconductors has resulted in strong government backing for domestic baseband players like HiSilicon (Huawei), Unisoc, and others, seeking to reduce dependence on Western chipmakers amid ongoing geopolitical tensions. In the United States and Europe, baseband innovation is driven by high-performance requirements in flagship smartphones, as well as in emerging 5G-enabled enterprise and automotive applications. U.S.-based Qualcomm remains a dominant force in premium baseband solutions, while MediaTek continues to expand its global footprint with a growing portfolio of cost-effective 4G and 5G chips for mid-range and entry-level devices. The market is also seeing a gradual shift toward diversification in verticals such as connected industrial equipment, smart cities, augmented reality, and vehicle-to-everything (V2X) communication systems, all of which require embedded connectivity powered by efficient baseband platforms. Demand for low-power, high-security baseband processors is growing in defense, satellite communications, and private networks as governments and enterprises prioritize secure, sovereign connectivity. Meanwhile, open RAN (Radio Access Network) initiatives are reshaping the telecom equipment landscape, increasing demand for modular baseband solutions that can interface with a wider range of network components. This evolving environment is driving manufacturers to rethink their hardware-software integration strategies and align product roadmaps with region-specific regulatory, security, and performance requirements.
What Is Fueling the Growth in the Global Baseband Processor Market?
The growth in the global baseband processor market is driven by several factors directly tied to advancements in communication technology, diversification of end-user applications, and global connectivity expansion. At the core is the widespread global rollout of 5G networks, which is creating sustained demand for advanced baseband processors capable of handling high-speed, low-latency wireless data. With every new smartphone generation requiring improved connectivity performance, mobile device manufacturers are increasing their reliance on cutting-edge baseband solutions to stay competitive. The explosive growth of connected devices in the consumer IoT segment-including smartwatches, fitness trackers, smart home systems, and wearables-is also fueling demand for ultra-low power baseband processors optimized for short-range wireless protocols and narrowband IoT standards. In industrial settings, the rise of Industry 4.0 technologies is prompting adoption of robust baseband processors to power edge devices, sensors, and automated systems that require reliable, real-time communication. Automotive telematics, autonomous driving, and infotainment systems represent another high-growth sector, as vehicles become increasingly reliant on cellular connectivity for navigation, diagnostics, and V2X communication. Satellite-based internet initiatives and expansion of rural broadband programs in developing countries are also creating new use cases for customized baseband platforms with extended coverage and enhanced resilience. Furthermore, the trend toward integrated SoCs combining baseband, AI, and GPU functionalities is lowering design complexity and development costs, encouraging widespread adoption in both high-end and entry-level devices. Strategic partnerships among semiconductor companies, telecom operators, and OEMs are further accelerating innovation and market penetration. Collectively, these forces are positioning the baseband processor not just as a telecom component, but as a central enabler of the connected digital economy.
SCOPE OF STUDY:
The report analyzes the Baseband Processor market in terms of units by the following Segments, and Geographic Regions/Countries:
Segments:
Type (4G Type, 5G Type, Other Types); Application (Smartphone Application, Tablets Application)
Geographic Regions/Countries:
World; United States; Canada; Japan; China; Europe (France; Germany; Italy; United Kingdom; and Rest of Europe); Asia-Pacific; Rest of World.
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