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市场调查报告书
商品编码
1689944

信号产生器:市场占有率分析、产业趋势与统计、成长预测(2025-2030)

Signal Generator - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)
出版日期: | 出版商: Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3个工作天内

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简介目录

信号产生器市场规模预计在 2025 年为 18.4 亿美元,预计到 2030 年将达到 26.1 亿美元,预测期内(2025-2030 年)的复合年增长率为 7.23%。

讯号产生器-市场-IMG1

信号产生器(也称为频率合成器)几乎是所有射频/微波测试和测量系统中的关键仪器。广泛用于测试、修理和排除各种电子设备和系统的故障。此外,预计未来几年它将成为全球测试和测量市场中成长最快的部分。信号产生器已经从简单的连续波设备发展成为具有卓越软体控制、调变能力和用户介面的先进调变设备。线性度、频宽等改进,以及使用增强讯号产生能力的新软体技术,进一步增加了信号产生器的市场占有率。

主要亮点

  • 无线通讯、航太和国防、汽车工业以及 5G 等新技术预计将推动需求。 5G 研究、开发和设计活动将主要影响对射频产生器的需求。预计无线标准的持续发展将在预测期内进一步推动对此类设备的需求。业界也要求更复杂的波形,从传统的类比调变到更复杂的向量格式,如 IQ调变。 5G和下一代无线蜂窝技术等新兴技术预计将使市场需求转向更高的运作频率和更宽的调变频宽。
  • WiMAX(微波接入无线互通性)、第三代(3G)无线、第四代(4G)无线以及宽频分码(WCDMA)等标准的快速发展将推动 5G 领域的成长。这可能会进一步增加对信号产生器的需求。预计测试将成为所有应用中应用最广泛的。随着物联网 (IoT) 的普及,现在许多设备都连接到互联网。虽然短期内由于成本问题,低延迟不会适用于所有应用程式和设备,但某些设备和应用程式需要低延迟或零延迟,这为使用信号产生器的测试製造商提供了机会。
  • 2021 年 2 月,STI Vibration Monitoring Inc. 推出了 CMCP-TKSG 现场信号产生器,这是一款用于振动和位移测量的小型可携式设备。 CMCP-TKSG现场信号产生器是工程师和技术人员安装、维护、故障排除和校准检验振动监测系统的理想选择。电池供电的 CMCP-TKSG 可模拟固定频率的加速度、速度或位移讯号以及用于间隙/位置监视器的直流电压。讯号幅度可以透过 10 个预定义步骤进行调整,或使用可变输出设定手动调整。
  • 两家公司也建立了伙伴关係。例如,2021 年 11 月,安全和航太公司洛克希德马丁公司和是德科技公司宣布建立伙伴关係,以推进 5G 发展,确保支援航太和国防应用中任务关键型通讯的信号产生器的响应能力和安全性。
  • 向最终用户普及互通性和专用测试设备的需求对于市场成功至关重要。目前,最终用户缺乏对主动解决方案必要性的认识,限制了信号产生器的大规模使用。最终用户无法从各种相同的系统中找出正确答案,这限制了采用。新冠肺炎疫情为市场带来严重衝击,消费者偏好转向必需品,导致汽车和电子产品的需求下降。由于边境关闭和国际旅行禁令,航太业也大幅下滑。因此,为这些行业提供服务的供应商报告称,2020 年第一季的收入下降。

信号产生器市场趋势

汽车业预计将占很大份额

  • 汽车产业是该市场背后的驱动力之一。新兴国家对电动车的日益普及可能会在预测期内支持市场成长。由于汽车中电子元件和感测器的使用越来越多,需要使用信号产生器来测试和排除感测器、螺线管、致动器、主点火和次级点火装置以及通讯资料流的故障。在汽车产业,信号产生器通常用于测试车载娱乐和驾驶辅助设备,例如倒车停车感应器和遥控钥匙。
  • 近年来,由于自动驾驶汽车技术和混合动力传动系统系统研发中的测试要求,对信号产生器的需求不断增加。全球汽车製造商越来越多地采用信号产生器来确保自动驾驶汽车技术中使用的雷达和感测器的安全性、品质和可靠性。信号产生器测试雷达、感测器和中央处理单元等关键设备之间的通讯链路。电动和电子车辆技术的最新进展使得信号产生器对于测试、故障排除和诊断几乎不可或缺。
  • 此外,欧盟还推出了紧急呼叫(eCall)系统的新法规,以便在发生车祸时提供快速救援。基于以上因素,从2018年第一季起,所有在欧洲市场销售的新车均须配备支援eCall的车载系统(IVS)。这些系统在出售之前必须经过适当的测试。需要在实验室中使用符合标准的 GNSS 讯号来刺激 IVS,以确保可重复和标准化的测试,其中信号产生器起着关键作用。
  • 新的 eCall 法规还包括新标准,以保护基于 GNSS 的设备免受相邻频宽干扰的影响。此标准由欧洲通讯标准协会(ETSI)制定。该标准确保在欧盟推出的任何新的或修改的 GNSS 产品能够容忍相邻频宽干扰并继续不间断运作。这些系统也需要测试,从而产生了对信号产生器的需求。
  • 自动驾驶汽车的发展正在推动对确保安全驾驶的传感器和雷达系统的需求。这些感测器和雷达基于频谱范围约为 40 kHz 的超音波频率。随着车载娱乐系统的普及和研发投入的增加,新型车载系统对频率在 50 至 100 MHz 之间的信号产生器的需求不断增加。

亚太地区可望强劲成长

  • 预计亚太地区的信号发生器市场将显着成长。这是由于信号产生器的需求急剧增加,尤其是中国、印度和韩国等国家。亚太地区 LTE 的日益普及也推动了市场的成长。爱立信估计,亚太地区的 LTE 用户数量将从 2019 年的 3 亿增加到 2020 年的 30 亿左右。汽车和电子设备製造商对信号产生器的需求不断增长,正在推动全部区域的市场成长。
  • 2021年10月,中国移动采用罗德与施瓦兹的R&S SMM100A向量信号产生器检验5G技术。这个新的讯号源为研究应用产生5G讯号,以检验目前和未来的5G技术。该计划延续了中国移动与罗德与施瓦茨中国公司的长期合作。中国移动也为其研究实验室配备了R&S SMM100A向量信号产生器,用于5G测试计划。
  • 2021 年 1 月,罗德与施瓦茨推出了 R&S SMM100A,这是同类产品中唯一具有毫米波测试功能的向量信号产生器。这些仪器在尖端无线通讯设备投入生产时为其产生数位讯号,满足开发未来产品和技术的严格期望。新型 R&S SMM100A 向量信号产生器在 100 MHz 至 44 GHz 的整个频率范围内具有出色的射频特性,可满足此需求。它涵盖所有无线标准使用的频宽,包括 LTE、5G NR、最新的 WLAN 标准、Wi-Fi 6 和 Wi-Fi 6E(最高 7.125 GHz)。
  • 2022年1月,安立公司宣布将在澳洲发布新的干扰波形图(用于5G NR接收机测试的干扰波形图MX371055A)和干扰波形图(用于LTE接收机测试的干扰波形图MX371054A)。这些工具使用信号产生器MG3710E 产生 3GPP 干扰波形模式,用于测试 5G 和 LTE 使用者装置 (UE) 和模组的接收器灵敏度和吞吐量。将这些工具安装在 MG3710E 中并将其与无线通讯测试站 MT8000A 和无线通讯分析仪 MT8821C 相结合,可轻鬆执行 3GPP RF 一致性测试所需的干扰评估测试。

信号产生器产业概况

信号产生器市场高度分散,许多公司占据相当大的市场份额。不断增加的研发力度、新技术的出现以及信号产生器的日益普及为频谱分析仪市场提供了丰厚的机会。整体而言,现任者之间的竞争敌意较高。

  • 2021 年 5 月-模组化讯号产生和处理介面供应商 LYNX Technik 宣布了其最新的 greenMachine 通用硬体设备 Callisto+。 Callisto+ 支援 2x 3G,并以相同的功能集和性能补充现有的 greenMachine Titan 硬体(支援 4K)。当不需要或不需要 4K 时,Callisto+ 为使用者提供更具成本效益的入门级讯号处理解决方案。
  • 2021 年 5 月 - 是德科技公司 (Keysight Technologies, Inc.) 是一家提供先进设计和检验解决方案以加速创新以连接和保护世界的技术公司,该公司今天宣布推出 Keysight N9042B UXA X 系列讯号分析仪解决方案,用于对航太、国防和卫星通讯的毫米波 (mmWave) 进行创新性能测试。
  • 2021 年 6 月-无线电信集团公司宣布,其 Boonton 品牌已推出 SGX1000 射频信号产生器,进入信号产生器市场,这是一系列新仪器,结合了高效能讯号产生功能和直觉的使用者介面。 SGX1000 基于最新的 Boonton 仪器平台,以紧凑的价格分布提供了现代、易于使用的介面,为半导体、航太、医疗、军事和通讯行业的普遍使用提供了经济实惠的高性能讯号生成。

其他福利:

  • Excel 格式的市场预测 (ME) 表
  • 3 个月分析师支持

目录

第 1 章 简介

  • 研究假设和市场定义
  • 研究范围

第二章调查方法

第三章执行摘要

第四章 市场动态

  • 市场概况
  • 产业价值链分析
  • 产业吸引力-波特五力分析
    • 供应商的议价能力
    • 消费者议价能力
    • 新进入者的威胁
    • 替代品的威胁
    • 竞争对手之间的竞争
  • 市场驱动因素
    • 电子设备的普及
    • 最新通讯系统
    • 对任意波形产生器的需求不断增加
  • 市场限制
    • 激烈的竞争带来价格压力
    • 进口原料的进口关税和税费较高
  • COVID-19 产业影响评估

第五章 市场区隔

  • 按产品
    • 通用信号产生器
      • 射频信号产生器
      • 微波信号产生器
      • 任意波形产生器
    • 专用信号产生器
      • 视讯信号产生器
      • 音讯信号产生器
      • 音调产生器
    • 函数产生器
      • 类比信号产生器
      • 数位信号产生器
      • 扫描函数产生器
  • 依技术分类
    • 2G
      • 全球行动电话系统 (GSM)
      • 分码(CDMA)
    • 3G
      • 宽频分码(WCDMA)
      • 分码(CDMA2000)
    • 5G-4G
      • 3GPP 长期演进 (LTE)
      • 无线网路
  • 按应用
    • 设计
    • 测试
    • 製造业
    • 故障排除
    • 维修
    • 其他用途
  • 按最终用户产业
    • 通讯业
    • 航太和国防
    • 电子製造业
    • 卫生保健
    • 其他最终用户产业
  • 按地区
    • 北美洲
    • 欧洲
    • 亚太地区
    • 拉丁美洲
    • 中东和非洲

第六章 竞争格局

  • 公司简介
    • Keysight Technologies Inc.
    • Rohde & Schwarz Gmbh & Co. Kg
    • National Instruments Corporation
    • Anritsu Corporation
    • Tektronix Inc.(Keithley Instruments Inc.)
    • Teledyne Technologies Incorporated
    • B&K Precision Corporation
    • Fluke Corporation
    • Stanford Research Systems
    • Good Will Instrument Co. Ltd
    • Yokogawa Electric Corporation

第七章投资分析

第 8 章:市场的未来

简介目录
Product Code: 69456

The Signal Generator Market size is estimated at USD 1.84 billion in 2025, and is expected to reach USD 2.61 billion by 2030, at a CAGR of 7.23% during the forecast period (2025-2030).

Signal Generator - Market - IMG1

Signal generators are also called frequency synthesizers and are crucial instruments of almost all RF/microwave test -and -measurement systems. They are extensively used to test, repair, and troubleshoot various electronic devices and systems. Further, they are expected to be the fastest-growing segment in the global test-measurement market over the next few years. Signal generators have evolved from simple continuous-wave devices to advanced modulation devices with superior software control, modulation capabilities, and user interfaces. Improvements such as using new software techniques that enhance the linearity, bandwidth, and signal creation capabilities further increase the market share for signal generators.

Key Highlights

  • It is expected that the demand will be driven by wireless communications, aerospace and defense, automotive industries, and new technologies such as 5G. 5G R&D and design activity primarily impact demand for RF Generators. Continued development of wireless standards is further expected to push the need for this equipment over the forecast period. The industry also demands more complex waveforms, ranging from traditional analog modulation to complex vector formats such as IQ modulation. A shift in market requirements toward higher operating frequencies and wider modulation bandwidths is expected due to new technologies such as 5G and the next generation of wireless cellular technology.
  • The rapid development of standards such as wireless interoperability for microwave access (WiMAX), third-generation (3G) wireless, fourth-generation (4G) wireless, and wideband code-division multiple access (WCDMA) will aid in growth in the 5G domain. This would further increase the demand for signal generators. Testing is forecast to be the most widely used among all the applications. With the increased adoption of the Internet of Things (IoT), many devices are connected to the internet. While low latency is not provided for all applications and devices in the short term due to costs, the desire for low or no latency for several devices and applications exists and offers opportunities to test manufacturers, who then utilize signal generators.
  • In February 2021, STI Vibration Monitoring Inc. launched its CMCP-TKSG field signal generator, a compact, portable device for vibration and displacement measurements. The CMCP-TKSG field signal generator is ideal for engineers and technicians who perform installation, maintenance, troubleshooting, and calibration verification on vibration monitoring systems. The battery-powered CMCP-TKSG simulates a fixed frequency acceleration, velocity or displacement signal, and DC voltages for gap/position monitors. The signal amplitude can be adjusted in 10 pre-defined increments or manually adjusted using the variable output setting.
  • Companies are also involved in partnerships. For instance, in November 2021, Lockheed Martin, a security and aerospace company, and Keysight Technologies Inc. announced a partnership to advance 5G to check the response and security of signal generators to support mission-critical communications for aerospace and defense applications.
  • Educating end users on interoperability and the need for specialized testing equipment is essential for market success. At present, the lack of end-user awareness of the need for proactive solutions limits the large-scale use of a signal generator. End-user inability to identify the appropriate answer from various identical systems limits adoption. The COVID-19 pandemic harmed the market, with customers' preferences moving toward essential items, dropping the demand for automobiles and electronics. The aerospace sector also witnessed a significant decline due to the closing of borders and the international travel ban. Thus, vendors supplying these industries reported a decline in revenue in the first quarter of 2020.

Signal Generator Market Trends

Automotive Expected to Hold Significant Share

  • The automotive industry is one of the driving forces for the market studied. The growing adoption of electric cars in emerging countries may support market growth over the forecast period. Due to the increased use of electronic components and sensors in vehicles, signal generators have become necessary for testing and troubleshooting sensors, solenoids, actuators, primary and secondary ignitions, and communication data streams. In the Automotive industry, signal generators are generally used to test in-car entertainment and driver assisting aids such as reverse parking sensors and remote keys.
  • In recent years, the demand for signal generators has increased due to testing requirements in the R&D of autonomous vehicle technologies and hybrid power-train systems. Global automakers increasingly use signal generators to ensure the safety, quality, and reliability of radars and sensors used in autonomous vehicle technologies. Signal generators test the communication link between critical devices such as radars, sensors, and the central computing unit. Advances in electrical and electronic vehicle technology, which occurred over recent years, made signal generators in testing, troubleshooting, and diagnosis almost mandatory.
  • The European Union has also deployed a new regulation, the emergency call (eCall) system, which offers fast assistance in the event of a car accident. Due to the above factor, all new vehicles sold in the European market after the first quarter of 2018 are necessitated to have an In-Vehicle System (IVS) supporting eCall. These systems are required to be appropriately tested before being sold. It is necessary to stimulate the IVS with standard conform GNSS signals in a laboratory to ensure repetitive and standard testing, where a signal generator plays a prominent role.
  • Also, to the new eCall regulations, there is a new standard to safeguard GNSS-based devices from the consequences of adjacent band interference. This standard was deployed by the European Telecommunications Standards Institute (ETSI). The standard ensures that any new or altered GNSS product launched in the European Union can withstand adjacent band interference and continue operating without interruption. These systems also need to be tested, generating demand for signal generators.
  • The development of autonomous cars has increased the demand for sensors and radar-based systems deployed for safe operation. These sensors and radars are based on an ultrasonic frequency with a spectrum range of around 40 kHz. With the increasing deployment of the in-car entertainment systems and growing investments in R&D, new automotive systems generate the demand for signal generators with frequencies of 50-100 MHz.

Asia-Pacific Expected to Witness Significant Growth

  • The Asia-Pacific region is expected to witness significant growth in the signal generator market. The increase is due to the surging demand for signal generators, especially in nations, like China, India, and South Korea. The growing LTE adoption in Asia-Pacific is also driving the market's growth. Ericsson estimated that Asia-Pacific would account for approximately 3 billion LTE subscriptions in 2020, increasing from 300 million LTE subscriptions in 2019. There is a rising demand for signal generators among automotive and electronics manufacturers, helping the market grow across the region.
  • In October 2021, China Mobile selected the R&S SMM100A vector signal generator from Rohde & Schwarz to validate its 5G technology. The new signal source generates 5G signals in research applications to verify current and future 5G technologies. The project continues the long-term cooperation between China Mobile and Rohde & Schwarz China. Also, China Mobile has equipped its research lab with the R&S SMM100A vector signal generator for 5G test projects.
  • In January 2021, Rohde & Schwarz introduced the R&S SMM100A, the only vector signal generator with mmWave testing capabilities in its class. The instrument meets the rigorous expectations for generating digital signals for the most advanced wireless communication devices entering production and developing future products and technologies. The new R&S SMM100A vector signal generator meets this need, displaying excellent RF characteristics across the entire frequency range from 100 MHz to 44 GHz. It covers all the bands used by any wireless standards, including LTE and 5G NR, and the latest WLAN standards, Wi-Fi 6, and Wi-Fi 6E (up to 7.125 GHz).
  • In January 2022, Anritsu Corporation announced the launch of its new Interference Waveform Pattern for 5G NR Receiver Test MX371055A and Interference Waveform Pattern for LTE Receiver Test MX371054A software in Australia. These tools generate 3GPP interference waveform patterns for testing the receiver sensitivity and throughput of 5G and LTE user equipment (UE) and modules using the Signal Generator MG3710E. Installing these tools in the MG3710E combined with the Radio Communication Test Station MT8000A and Radio Communication Analyzer MT8821C facilitates easy interference evaluation tests required by the 3GPP RF Compliance Test.

Signal Generator Industry Overview

The Signal Generator Market is quite fragmented as many companies occupy a significant share in the market. Increased R&D efforts, new technologies, and increased adoption of signal generators provide lucrative opportunities in the spectrum analyzer market. Overall, the competitive rivalry among the existing competitors is high.

  • May 2021 - LYNX Technik, a modular signal generating and processing interfaces provider, announced its latest greenMachine general-purpose hardware device, Callisto+. Callisto+ is 2x 3G capable and complements the existing greenMachine Titan hardware (4K capable) with the same feature set and performance. Callisto+ provides users with a more cost-effective, entry-level signal processing solution when 4K is unnecessary or required.
  • May 2021 - Keysight Technologies Inc., a technology firm that delivers advanced design and validation solutions to accelerate innovation to connect and secure the world, announced the launch of the Keysight N9042B UXA X-Series signal analyzer solution, which enables customers to test the performance of millimeter-wave (mmWave) innovations in aerospace and defense and satellite communications.
  • June 2021 - Wireless Telecom Group Inc. announced that its Boonton brand had entered the signal generation market by introducing the SGX1000 RF Signal Generator, a new series of instruments that combine high-performance signal generation capabilities with an intuitive user interface. The SGX1000 is built on the latest Boonton instrument platform that provides an easy-to-use modern interface in a compact form and offers high-performance signal generation within an affordable price range for general use in semiconductors, aerospace, medical, military, and communications industries.

Additional Benefits:

  • The market estimate (ME) sheet in Excel format
  • 3 months of analyst support

TABLE OF CONTENTS

1 INTRODUCTION

  • 1.1 Study Assumptions and Market Definition
  • 1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS

  • 4.1 Market Overview
  • 4.2 Industry Value Chain Analysis
  • 4.3 Industry Attractiveness - Porter's Five Forces Analysis
    • 4.3.1 Bargaining Power of Suppliers
    • 4.3.2 Bargaining Power of Consumers
    • 4.3.3 Threat of New Entrants
    • 4.3.4 Threat of Substitutes
    • 4.3.5 Intensity of Competitive Rivalry
  • 4.4 Market Drivers
    • 4.4.1 Increased Adoption of Electronic Devices
    • 4.4.2 Modern Communication Systems
    • 4.4.3 Increasing Demand for Arbitrary Waveform Generators
  • 4.5 Market Restraints
    • 4.5.1 Intense Competition Causing Pricing Pressure
    • 4.5.2 High Import Duty and Taxes on Imported Raw Materials
  • 4.6 Assessment of Impact of COVID-19 on the Industry

5 MARKET SEGMENTATION

  • 5.1 By Product
    • 5.1.1 General Purpose Signal Generator
      • 5.1.1.1 RF Signal Generator
      • 5.1.1.2 Microwave Signal Generator
      • 5.1.1.3 Arbitrary Waveform Generator
    • 5.1.2 Special Purpose Signal Generator
      • 5.1.2.1 Video Signal Generator
      • 5.1.2.2 Audio Signal Generator
      • 5.1.2.3 Pitch Generator
    • 5.1.3 Function Generator
      • 5.1.3.1 Analog Function Generator
      • 5.1.3.2 Digital Function Generator
      • 5.1.3.3 Sweep Function Generator
  • 5.2 By Technology
    • 5.2.1 2G
      • 5.2.1.1 Global System For Mobile Phones (GSM)
      • 5.2.1.2 Code Division Multiple Access (CDMA)
    • 5.2.2 3G
      • 5.2.2.1 Wideband Code Division Multiple Access (WCDMA)
      • 5.2.2.2 Code Division Multiple Access (CDMA2000)
    • 5.2.3 5G - 4G
      • 5.2.3.1 3GPP Long Term Evolution (LTE)
      • 5.2.3.2 Wimax
  • 5.3 By Application
    • 5.3.1 Designing
    • 5.3.2 Testing
    • 5.3.3 Manufacturing
    • 5.3.4 Troubleshooting
    • 5.3.5 Repairing
    • 5.3.6 Other Applications
  • 5.4 By End-user Industry
    • 5.4.1 Telecommunication
    • 5.4.2 Aerospace and Defense
    • 5.4.3 Automotive
    • 5.4.4 Electronics Manufacturing
    • 5.4.5 Healthcare
    • 5.4.6 Other End-user Industries
  • 5.5 By Geography
    • 5.5.1 North America
    • 5.5.2 Europe
    • 5.5.3 Asia-Pacific
    • 5.5.4 Latin America
    • 5.5.5 Middle-East and Africa

6 COMPETITIVE LANDSCAPE

  • 6.1 Company Profiles
    • 6.1.1 Keysight Technologies Inc.
    • 6.1.2 Rohde & Schwarz Gmbh & Co. Kg
    • 6.1.3 National Instruments Corporation
    • 6.1.4 Anritsu Corporation
    • 6.1.5 Tektronix Inc. (Keithley Instruments Inc.)
    • 6.1.6 Teledyne Technologies Incorporated
    • 6.1.7 B&K Precision Corporation
    • 6.1.8 Fluke Corporation
    • 6.1.9 Stanford Research Systems
    • 6.1.10 Good Will Instrument Co. Ltd
    • 6.1.11 Yokogawa Electric Corporation

7 INVESTMENT ANALYSIS

8 FUTURE OF THE MARKET