市場調查報告書
商品編碼
1308593
到 2030 年射頻可調諧濾波器市場預測:按類型、調諧元件、調諧機制、應用和地區進行的全球分析RF Tunable Filter Market Forecasts to 2030 - Global Analysis By Type, Tuning Component, Tuning Mechanism, Applications and By Geography |
根據 Stratistics MRC 的數據,2023 年全球射頻可調諧濾波器市場規模將達到 1.1285 億美元,預測期內復合年增長率為 12.8%,到 2030 年將達到 2 億。達到6210萬美元。
RF(射頻)可調諧濾波器是一種電子工具,用於選擇性地允許或阻止 RF 傳輸中的特定頻率範圍。 這些濾波器在工業自動化、雷達系統、測試和測量工具、無線通信系統和醫療設備等各個行業中有許多應用。 5G網絡的普及和對無線通信技術不斷增長的需求是兩個關鍵的增長動力。
根據全球移動通信系統(GSM)協會的數據,到 2025 年,全球將有約 12 億個 5G 連接,5G 網絡預計將覆蓋全球約三分之一的人口。
雷達系統廣泛應用於汽車、航空航天和國防應用中,用於物體檢測、防撞和監視。 這些系統需要射頻可調諧濾波器來精確調諧和過濾頻率,以實現準確的雷達性能。 隨著這些行業越來越多地部署最先進的雷達系統,對射頻可調諧濾波器的需求也隨之而來。 雷達系統對於航空航天和國防工業中的監視、目標識別和目標跟蹤也至關重要。 這些應用中對射頻可調諧濾波器的需求是由國防現代化計劃投資的增加和對先進雷達系統的需求的增加推動的。
一些射頻可調諧濾波器的調諧範圍和帶寬有限。 調諧範圍決定了濾波器可以調諧的頻率範圍,而帶寬定義了可以通過濾波器的頻率範圍。 不同的應用有特定的頻率要求和工作頻段。 如果射頻可調諧濾波器的調諧範圍有限並且無法覆蓋所需的頻率,則它可能不適合該應用。 這一限制可能會限制射頻可調諧濾波器在某些需要更寬調諧範圍的行業和應用中的採用,預計這將阻礙市場增長。
物聯網 (IoT) 市場的快速增長為射頻可調諧濾波器帶來了可能性。 隨著物聯網設備和應用的激增,可調諧濾波器可以幫助管理不同的頻率要求並提高物聯網網絡的效率。 物聯網生態系統包括在不同頻段運行的各種設備和應用程序。 射頻可調諧濾波器可以滿足物聯網設備的不同頻率要求,並有效管理單個設備或網絡內的多個頻段。 該濾波器的頻率響應可以調節,從而實現各種物聯網設備的無縫集成和共存,從而提高整體系統性能。
射頻可調諧濾波器市場較為分散,眾多廠商提供不同的解決方案。 這種碎片化可能導致激烈的競爭、價格壓力以及建立市場差異化的挑戰。 製造商必須制定獨特的價值主張,通過性能、功能和成本優勢使其產品脫穎而出,並向潛在客戶有效傳達射頻可調諧濾波器的優勢。
由於多個國家政府的長期停工和旅行限制,COVID-19 大流行摧毀了電子電氣行業的整個製造設備。 疫情突然擾亂了供應鏈,特別是原材料和勞動力方面,給市場帶來了顯著的負面影響。 然而,全球COVID-19病例下降帶來的相關大宗商品生產的逐步改善,正在為全球市場恢復正常運行鋪平道路。
預計變容二極管領域的射頻可調諧濾波器市場將在預測期內佔據最大份額。 該領域的增長是由低功率損耗、低直流功耗、高線性度、高電壓和大電流能力、寬調諧範圍、高可靠性、低成本、低面積佔用以及快速調諧速度調整驅動的。由於功能等多種特性,變容二極管的使用被認為正在推動市場增長。
全球射頻可調諧濾波器市場在電子調諧機制的推動下,受到不斷增長的需求、半導體技術的進步、寬頻帶覆蓋、軟件定義的濾波功能、與物聯網和無線通信系統的集成、成本降低、由於由於主要市場參與者的進駐等,它已經實現了顯著的增長。 這些電子調諧機制提供卓越的性能、多功能性和可靠性,使其對通信、航空航天和國防、汽車和消費電子等行業的各種應用具有吸引力,從而促進市場增長。我來了。
就收入份額而言,亞太地區射頻可調諧濾波器市場在全球市場中佔據主導地位,並且這種主導地位預計在預測期內將持續下去。 該地區正在經歷強勁的經濟增長、城市化進程的加快和可支配收入的增加,導致智能手機、平板電腦和其他無線設備的激增。 無線通信設備的激增正在推動該地區對射頻可調諧濾波器的需求。 此外,中國、日本、韓國等國家正在積極投資發展5G基礎設施,這進一步提振了市場。 主要電子製造商的存在和物聯網應用的出現也促進了該地區的市場增長。
由於對無線通信技術的需求不斷增長、5G 基礎設施的進步以及物聯網 (IoT) 生態系統的擴展,北美射頻可調諧濾波器市場正在穩步增長。 北美處於 5G 網絡部署和採用的前沿。 濾波器能夠在各種無線通信系統中高效、可靠地傳輸、接收和過濾信號,確保最佳性能和頻譜利用率。 RF 可調諧濾波器可實現頻段選擇、信號過濾和乾擾抑制,在 5G 基礎設施中發揮著重要作用。 隨著 5G 網絡部署在該地區的擴展,對射頻可調諧濾波器的需求預計將大幅增長。
2022 年 12 月,射頻和微波測試與測量設備供應商 Ranatec 發布了 RI 268 可調諧帶阻濾波器。 RI 268覆蓋6GHz以下的所有移動頻段、7.125GHz以下的信道帶寬和Wi-Fi信道,為設計驗證、產品認證和測試提供全面的覆蓋。
2020 年9 月,空軍研究實驗室獲得了美國專利商標局(USPTO) 的一項新型可變射頻(RF) 濾波器專利,該濾波器為當前技術提供了更小、更輕、功耗更低的替代方案.. 該專利設計利用一層壓電材料與一層永磁材料薄膜相結合,形成低功耗、頻率靈活且具有成本效益的設備。
According to Stratistics MRC, the Global RF Tunable Filter Market is accounted for $112.85 million in 2023 and is expected to reach $262.10 million by 2030 growing at a CAGR of 12.8% during the forecast period. The production and distribution of radio frequency (RF) tunable filters, which are electronic tools used to selectively allow or block particular frequency ranges within RF transmissions. These filters have many uses in many different industries, including industrial automation, radar systems, test and measurement tools, wireless communication systems, and medical equipment. The widespread use of 5G networks and the rising demand for wireless communication technologies are two key factors that are key growth drivers.
According to GSM (Global System for Mobile Communications) Association, by 2025, it is projected that there will be approximately 1.2 billion 5G connections globally, with 5G networks expected to cover around one-third of the world's population.
Radar systems are extensively used in automotive, aerospace, and defense applications for object detection, collision avoidance, and surveillance. To precisely tune and filter frequencies for accurate radar performance, these systems need RF tunable filters. The demand for RF tunable filters is being driven by these industries' increased deployment of cutting-edge radar systems. Radar systems are also essential for surveillance, target recognition, and target tracking in the aerospace and defense industries. The demand for RF tunable filters in these applications is influenced by increased defense modernization program investments as well as an increase in the demand for cutting-edge radar systems.
Some RF tunable filters may have limitations in terms of tuning range and bandwidth. The tuning range determines the frequency span over which the filter can be adjusted, while the bandwidth defines the range of frequencies that can be passed through the filter. Different applications have specific frequency requirements and operating bands. If an RF tunable filter has a limited tuning range that does not cover the desired frequencies, it may not be suitable for those applications. This limitation can restrict the adoption of RF tunable filters in certain industries or applications where a broader tuning range is necessary, which is projected to impede the market's growth.
The rapid growth of the Internet of Things (IoT) market offers potential for RF tunable filters. As the number of IoT devices and applications increases, tunable filters can help manage the diverse frequency requirements and enhance the efficiency of IoT networks. The IoT ecosystem encompasses a wide range of devices and applications operating across different frequency bands. RF tunable filters can cater to the diverse frequency requirements of IoT devices, allowing for efficient management of multiple frequency bands within a single device or network. The ability to tune the filter's frequency response enables seamless integration and coexistence of various IoT devices, enhancing overall system performance.
The RF tunable filter market is fragmented, with numerous players offering a variety of solutions. This fragmentation can lead to intense competition, price pressure, and challenges in establishing market differentiation. Manufacturers need to develop unique value propositions, differentiate their products through performance, features, or cost advantages, and effectively communicate the benefits of RF tunable filters to potential customers.
The COVID-19 pandemic had shattered the overall manufacturing units of the electronic and electrical industries due to prolonged lockdowns and movement restrictions imposed by governments across several countries. The epidemic had abruptly disrupted the supply chain, notably in terms of raw materials and labor, which had a significant negative impact on the market. However, the progressive improvement in the production of related goods brought on by the worldwide drop in corona instances opens the path for the return of the regular operation of the global market.
The RF tunable filter market for the varactor diode segment is expected to hold the largest share over the forecast period. The growth of this segment can be attributed to the rising use of varactor diodes due to their several features, including low power loss, low DC power consumption, high linearity, resistance to high voltage and high current, a wide tuning range, high reliability, low cost, low area usage, and the capability of adjusting the frequency with a high tuning speed, thereby boosting market growth.
The global RF tunable filter market, driven by electronic tuning mechanisms, is experiencing significant growth due to increasing demand, advancements in semiconductor technology, wide frequency range coverage, software-defined filtering capabilities, integration with IoT and wireless communication systems, cost reduction, and the presence of key market players. These electronic tuning mechanisms offer superior performance, versatility, and reliability, making them attractive for various applications across industries such as telecommunications, aerospace and defense, automotive, and consumer electronics, thereby boosting market growth.
The Asia Pacific RF Tunable Filter market dominated the global market in terms of revenue share, and it is anticipated that this dominance will continue over the course of the forecasted period. The region is witnessing robust economic growth, increasing urbanization, and rising disposable incomes, leading to the proliferation of smartphones, tablets, and other wireless devices. This surge in wireless communication devices drives the demand for RF-tunable filters in the region. Furthermore, countries like China, Japan, and South Korea are actively investing in the development of 5G infrastructures, which further boosts the market. The presence of major electronics manufacturers and the emergence of IoT applications also contribute to market growth in the region.
The RF tunable filter market in North America is experiencing steady growth due to the increasing demand for wireless communication technologies, advancements in 5G infrastructure, and the expanding Internet of Things (IoT) ecosystem. North America is at the forefront of 5G network deployment and adoption. The filters enable efficient and reliable signal transmission, reception, and filtering in various wireless communication systems, ensuring optimal performance and spectrum utilization. RF tunable filters play a crucial role in 5G infrastructure by enabling frequency band selection, signal filtering, and interference mitigation. As the deployment of 5G networks expands across the region, the demand for RF tunable filters is expected to grow significantly.
Some of the key players in RF Tunable Filter Market include Analog Devices, Inc., Anatech Electronics, Inc., Benchmark Lark Technology, Coleman Microwave Company, DiCon Fiberoptics, Inc., Dover Corporation, EXFO Inc., K&L Microwave, LGL Group, Lorch Microwave, MtronPTI, Netcom, Inc., Pasternack, Pole/Zero Corporation, RF Products Inc., Smiths Group plc, Telonic Berkeley Corporation, The LGL Group, Inc. and Thorlabs, Inc.
In December 2022, Ranatec, a supplier of RF and microwave test and measurement equipment, unveiled the RI 268 tunable band reject filter. Covering all sub-6 GHz mobile bands, channel bandwidths, and sub-7.125 GHz Wi-Fi channels, the RI 268 offers comprehensive coverage for design verification, product certification, and testing
In September 2021, MtronPTI partnered with Digi-Key Electronics, a leading electronic component distributor, to distribute its crystal resonators, filters, and oscillators to its customers worldwide
In September 2020, Air Force Research Laboratory were awarded a patent by the United States Patent and Trademark Office (USPTO) for a new tunable radio frequency (RF) filter design that offers a smaller, lighter, and less power-consuming alternative to current technology. The patented design utilizes a layer of piezoelectric material coupled with a thin film of permanently magnetized material, resulting in a low-power, frequency-agile, and cost-effective device
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.