市场调查报告书
商品编码
1184261
射频测试设备全球市场规模、份额、行业趋势分析报告,按频率范围(6GHz+、1-6GHz、<1GHz)、最终用户、外形、类型、区域展望和预测,2022-2028 年Global RF Test Equipment Market Size, Share & Industry Trends Analysis Report By Frequency Range (More than 6 GHz, 1 to 6 GHz, and Less than 1 GHz), By End-Use, By Form Factor, By Type, By Regional Outlook and Forecast, 2022 - 2028 |
到 2028 年,全球射频测试设备市场规模预计将达到 48 亿美元,预测期内復合年增长率为 6.2%。
现代通信网络中的无线连接是通过宽带无线电频率实现的。 对连接性和支持 RF 的小工具的需求正在迅速增长,这将增加对 RF 测试设备市场的需求。 此外,手机、平板电脑、电脑、电视和微波炉等联网电子设备的需求也在不断增长。
定位和识别射频干扰源的能力对于更好、更彻底地测试现代无线网络至关重要。 Gap Wireless 提供满足您所有射频测试需求的解决方案,从简单的射频电缆测试到高级雷达和 VNA。 RF 测试设备对于规划、设置和操作无线系统至关重要。
Gap Wireless 的客户包括无线服务提供商、运营商和承包商、政府、军队、教育、公用事业和电信网络实施者。 这些客户依赖于可靠和准确的 RF 测试设备。 为了提供最好和最新的 RF 测试技术,Gap Wireless 与业界顶级的 RF 测试设备供应商合作。
COVID-19 影响分析
COVID-19 的爆发对射频测试设备的整体市场产生了重大的负面影响。 射频测试设备市场受到生产和终端使用部门停工的影响。 大流行影响了整个行业的增长。 由于 2020 年和 2021 年初突然爆发的 COVID-19 大流行,许多国家不得不制定严格的封锁法,扰乱了射频测试设备的进出口。 COVID-19对全球经济的影响大致可分为三类,包括供需的直接变化、市场和供应链的中断以及对企业和金融市场的经济影响。
市场增长因素
兼容 5G 的智能手机的使用率正在增加。
第五代(5G)手机宽带技术标准。 近年来,全球对5G兼容设备的需求显着增加,5G手机技术在製造业和电信等各个行业的应用也在不断扩大。 例如,许多主要网络提供商(如 AT&T、Sprint 和 T-Mobile)声称他们的 5G 网络基础设施应该支持大约 1Gbps 的连接。
车载射频测试设备正在兴起。
无线通信和汽车雷达系统正在转向更高的频段。 此外,随着技术的进步,最终用户的需求(例如相位噪声性能、频率和调製带宽)预计会发生显着变化。 为了满足这些需求,市场进入者专注于开发最先进的 RF 测试解决方案。 例如,先进的驾驶员辅助系统 (ADAS),例如防撞系统、泊车系统和智能製动系统,已在现代汽车中找到。
市场製约因素
延长通信系统寿命
为了构建最先进的通信系统,需要进行大量的研究和开发。 此外,通信系统的使用寿命更长,固定客户相对较少。 因此,预计射频测试设备的引进难度将逐年加大。 例如,Nippon denshin denwa (NTT)(日本)于 1979 年推出了第一代 (1G) 通信技术。 10年后,第二代(2G)通信技术问世,大容量和高可用性正在进步。
按类型划分的前景
射频测试设备市场按类型划分为示波器、频谱分析仪、信号发生器、网络分析仪等。 信号发生器在预期期间显示出高增长率。 信号发生器用于生成用于测试的信号。 信号发生器用于生成预定义和自定义波形。 还可以模拟真实世界的环境因素,例如干扰和噪声。 该设备经常用于产品设计的开发和验证阶段。
频段展望
RF 测试设备市场按频段划分为 6 GHz 以上、1-6 GHz 和 1 GHz 以下。 2021年收入份额最大的细分市场将是1-6GHz。 大多数射频设备使用 2.4GHz 频段并符合 IEEE802.11b/g/n 无线标准。 由于对更快和无缝通信的需求不断增长,符合 IEEE802.11a 并在 5 GHz 至 6 GHz 频段运行的基于 Wi-Fi 技术的 RF 设备的需求量很大。
形状因素展望
RF 测试设备市场按外形尺寸分为台式、机架式、便携式和模块化。 模块化细分市场在 2021 年获得了很大的市场份额。 模块化设备采用多种架构设计,包括 PXI、AXIe 和 PCI Express。 这些仪器提供结果的速度比其他仪器快得多,专门用于评估製造设施中的测试设置和射频设备设计。
结束使用 Outlook
根据最终用途,RF 测试设备市场分为通信、消费电子、工业、汽车、研发、航空航天和国防以及医疗。 电信部门在 2021 年录得可观的收入份额。 很多射频测试设备用在电信领域。 原因是需要准确的测量来确保跨网络的语音和数据传输的完整性。 RF 测试设备用于查找和修復信号问题、识别干扰源以及提高网络性能。
区域展望
RF 测试设备市场按地区划分为北美、欧洲、亚太地区和 LAMEA。 2021年,亚太地区占据了射频测试设备最大的市场份额。 预计该地区在预测期内将实现高速增长。 影响亚太地区市场增长的一些主要原因包括声望连通性的存在。
产品发布和合作伙伴关係是市场进入者采取的主要策略。 根据基数矩阵中的分析,Keysight Technologies, Inc. 是射频测试设备市场的领先先驱。 Teledyne Technologies Incorporated、Tektronix, Inc.、National Instruments Corporation 和 Anritsu Group 等公司是射频测试设备市场的领先创新者。
The Global RF Test Equipment Market size is expected to reach $4.8 billion by 2028, rising at a market growth of 6.2% CAGR during the forecast period.
Any device with a frequency connection and radio wave propagation capabilities is referred to as RF. When an antenna is powered by RF current, an electromagnetic field is created and propagates through space. The spread of radiofrequency waves is the foundation of many technological gadgets. The use of RF electrical components has made satellite communications, radio networking, and video streaming applications viable.
The equipment's primary use is to test RF electronics and features to see if they are in good working order and condition. A system is tested to see if it can function in an electromagnetic environment and if it emits any hazardous electromagnetic radiation. The telecommunications industry's rapid expansion is the main driver of the market for RF test equipment.
Wireless connectivity in modern telecommunications networks is accomplished via a broad spectrum of radio frequencies. The necessity for the RF test equipment market will increase as a result of the rapidly expanding demand for connection and RF-enabled gadgets. In addition, there is a rising need for internet-connected electronics, including mobile phones, tablets, computers, televisions, and microwaves.
The capacity to locate and source RF interference is crucial for the better and more thorough testing of modern wireless networks. Gap Wireless offers solutions for any RF testing need, from straightforward RF cable testing to sophisticated radar and VNA. For the purpose of planning, setting up, and running your wireless systems, RF test equipment is crucial.
Customers of Gap Wireless include wireless service providers, carriers and contractors, and network implementors for the government, military, education, utilities, and communications. These clients depend on reliable and accurate RF test equipment. In order to offer the best and most recent RF testing technology, Gap Wireless collaborates with top industry vendors of RF test equipment.
COVID-19 Impact Analysis
The COVID-19 outbreak had a tremendous negative impact on the market for RF Test Equipment as a whole. The RF Test Equipment market has been impacted by the suspension of operations in the production and end-use sectors. The pandemic has had an impact on the industry's overall growth. Due to the sudden COVID-19 pandemic outbreak in 2020 and the beginning of 2021, numerous countries had to enact strict lockdown laws, which disrupted the import and export of RF Test Equipment. The immediate alteration of supply and demand, the disruption of the market and supply chain, and the economic impact on enterprises and financial markets are the three main ways that COVID-19 can have an influence on the global economy.
Market Growth Factors
The usage of 5g-capable smartphones is rising.
The fifth-generation (5G) cellular broadband technology standard. Worldwide demand for 5G-compatible devices has significantly increased in recent years, and various industries, including manufacturing and telecoms, are expanding their use of 5G technology in cellular devices. For instance, many leading network providers, such as AT&T, Sprint, and T-Mobile, among others, claim that the 5G network infrastructures should be able to give a connection of roughly 1 Gbps.
RF testing equipment used in automotive applications is increasing.
Wireless communication and automotive radar systems have migrated to high-frequency bands. Furthermore, as technology develops, end users' needs in terms of phase noise performance, frequencies, and modulation bandwidth are anticipated to alter significantly. To fulfill these needs, market participants have concentrated heavily on creating cutting-edge RF testing solutions. For instance, sophisticated driver-assistance systems (ADAS), including intelligent collision avoidance systems, parking systems, and smart braking systems, are integrated into contemporary vehicles.
Market Restraining Factors
Increased System Lifespan for Communications
Extensive R&D is required for the creation of cutting-edge communication systems. Additionally, communication systems last longer, and there are relatively fewer regular clients. Each year, this is anticipated to make it more difficult to deploy RF test equipment. For instance, Nippon Telegraph and Telephone (NTT) (Japan) introduced first-generation (1G) communication technology to the country in 1979. The second-generation (2G) communication technology was launched after ten years to increase capacity and coverage.
Type Outlook
Based on type, the RF Test Equipment market into Oscilloscopes, Spectrum Analyzers, Signal Generators, Network Analyzers, and Others. Signal Generators is demonstrating the anticipated period's strong growth rate. In order to generate signals for testing purposes, signal generators are utilized. They can be used to produce either pre-defined or custom waveforms. Signal generators can also be utilized to mimic actual environmental factors like interference and noise. In the development and verification phases of product design, this kind of equipment is frequently utilized.
Frequency Range Outlook
Based on the frequency range, the RF Test Equipment Market is classified as more than 6 GHz, 1 to 6 GHz, and Less than 1 GHz. The market segment with the significant revenue share in 2021 will be 1 to 6 GHz. The majority of RF equipment uses the 2.4 GHz band and complies with IEEE802.11b/g/n wireless standards. High demand exists for Wi-Fi technology-based RF equipment that conforms with IEEE802.11a wireless standards and operates in the frequency range of 5 GHz to 6 GHz as a result of the growing demand for seamless communication at larger data speeds.
Form Factor Outlook
Based on form factor, the RF Test Equipment Market is categorized into Benchtop, Rackmount, Portable, and Modular. Modular segment garnered the significant share in the market during 2021. There are numerous architectural designs for modular equipment, including PXI, AXIe, and PCI Express. They can produce results much more quickly than other instruments and are specialised to evaluate testing settings in manufacturing facilities and designs of RF devices.
End-Use Outlook
Based on end-use, the RF Test Equipment Market is categorized into Telecommunications, consumer electronics, Industrial, Automotive, Research and Development, Aerospace and Defense, and Medical. A significant revenue share was registered by the telecommunications segment in 2021. The telecoms sector uses a lot of RF test equipment. The reason for this is that precise measurements are necessary to guarantee the integrity of voice and data transmission throughout networks. RF test equipment is used to find and fix signal issues, pinpoint interference sources, and improve network performance.
Regional Outlook
Based on geography, the RF Test Equipment Market is classified into North America, Europe, Asia Pacific, and LAMEA. In 2021, Asia Pacific held the greatest market share for RF test equipment. During the projection period, the region is anticipated to record high growth. Several of the major reasons influencing the market growth in Asia Pacific include the presence of reputable connectivity
The major strategies followed by the market participants are Product Launches and Partnerships. Based on the Analysis presented in the Cardinal matrix; Keysight Technologies, Inc. is the major forerunner in the RF Test Equipment Market. Companies such as Teledyne Technologies Incorporated, Tektronix, Inc., National Instruments Corporation, and Anritsu Group are some of the key innovators in RF Test Equipment Market.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Teledyne FLIR LLC (Teledyne Technologies Incorporated), Keysight Technologies, Inc., Anritsu Corporation, Fortive Corporation (Tektronix, Inc.), National Instruments Corporation, Boonton Electronics (Wireless Telecom Group, Inc), Rohde & Schwarz GmbH & Co. KG, AnaPico AG, B&K Precision Corporation, and Berkeley Nucleonics Corporation.
Recent Strategies deployed in RF Test Equipment Market
Partnerships, Collaborations & Agreements
Sep-2022: Anritsu Group came into collaboration with Tektronix, Inc., an American company known for manufacturing test and measurement devices such as oscilloscopes, logic analyzers, and video and mobile test protocol equipment. Under this collaboration, Anritsu has unveiled a PCIe 6.0 receiver test solution, which claims to perform fast and high-quality measurements. Moreover, the receiver test automation software offers a sole control panel to rule the Tektronix oscilloscope and Antrisu BERT during receiver calibration.
Aug-2022: Keysight Technologies, Inc. extended its collaboration with Synopsys, an American company engaged in offering electronic design automation solutions and services. Under this collaboration, Keysight Technologies combined the PathWave RFIC Design (GoldenGate) with Synopsys Custom Compiler design environment and Synopsys PrimeSim circuit simulation solutions. Additionally, this collaboration would allow designers to authenticate complex radio frequency (RF) and millimeter wave design requirements for subsystem designs in the Synopsys Custom Design Family and 5G/6G system-on-chip (SoC).
Jun-2022: Anritsu Company partnered with AeroGT, a company that provides the Over-the-Air (OTA) measurement solutions. Through this partnership, both companies would offer better 5G Multiple-Out (MIMO) Over-the-Air (OTA) test platforms to test, characterize, and Optimize antennas. Moreover, this platform operates single- or multiple-use antenna performance and reliability tests on products, such as mobile devices, similar designs, and vehicles, in a simulated environment before commercialization.
Nov-2020: National Instruments Corp., came into collaboration with SET GmbH, and Tech180, Inc., a company that works in aerospace and defense test systems. Under this strategic collaboration, the companies together would rupture the design, and maintenance of test systems and development. Additionally, the companies altogether would also present an innovative approach to test systems, including, software frameworks, hardware frameworks, a paradigm-shifting System-on-Demand methodology, and an open systems reference architecture.
Product Launches and Product Expansions
Nov-2022: Rohde & Schwarz unveiled the R&S MXO 4, the next-generation oscilloscope. These next-generation oscilloscopes of the R&S®MXO 4 series appear with a magnificent 13.3" Full-HD capacitive touchscreen. Additionally, R&S MXO 4 features the world's fastest real-time update rate of over 4.5 million acquisitions per second, enabling development engineers to see more signal details and exceptional events as compared to any other oscilloscope.
Oct-2022: Keysight Technologies, Inc. launched the new PathWave System Design (SystemVue) 2023, software to fasten up the design process for 5G Non-Terrestrial Networks (NTN) and additional wireless systems. The new upgrades to Pathwave System Design entitle radio frequency (RF) system designers to build digital twins of their architectures and modify from a hardware-centric to a simulation-centric design flow.
Jul-2022: Anritsu Group launched the IQ Signal Master MX280005A, a Vector Signal Analysis software. This product is crafted for challenging field environments, the software assists government regulators to examine the RF Spectrum, spectrum owners secure their licensed spectrum, security agencies follow illegal or doubtful signals, and EW SIgnals and defense electronics companies analyze radar.
Jun-2022: Keysight Technologies, Inc., unveiled the new Pathwave Advanced Design System (ADS) 2023, an integrated design and simulation software that quickly meets the expanding higher frequencies and design complexity in the radio frequency (RF) and microwave industries.
Feb-2022: Tektronix, Inc. launched the SignalVu 5G NR analysis software for 6 Series B MSO oscilloscopes. The 6 Series B MSO oscilloscopes are preferred by RF system designers for viewing digital control buses, power rails, and I/O signals in addition to RF signals. Furthermore, this delivers engineers with a time-coherent view of the choreography of signals that make up their designs.
Mergers & Acquisitions
Oct-2022: Teledyne Technologies, Inc., took over ETM-Electromatic Inc of Newark, an American company known for its ability in high-power microwave/RF and high-energy X-ray systems. Through this acquisition, Teledyne Technologies, Inc. would be able to jointly deliver bespoke RF Solutions with strong technical support and manufacturing centers in Europe, China, and the USA.
Jul-2021: Rohde & Schwarz Technology group took over Zurich Instruments AG, a company engaged in developing and selling advanced test and measurement instruments. Through this acquisition, Rohde & Schwarz would surely enlarge its Test and Measurement Division. Furthermore, Rohde & Schwarz are strengthening their position in the scientific realm.
Feb-2021: Keysight Technologies, Inc. acquired Sanjole, a leader in solutions for protocol decoding and interoperability of 4G, 5G, and other wireless technologies. Through this acquisition, Keysight would aim to provide a complete, advanced 5G solutions suite at the forefront of advancing communications technology.
Market Segments covered in the Report:
By Frequency Range
By End-Use
By Form Factor
By Type
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures
List of Figures