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市场调查报告书
商品编码
1372030
2030 年类比示波器市场预测:按产品类型、用途和地区分類的全球分析Analogue Oscilloscope Market Forecasts to 2030 - Global Analysis By Product Type, Application and By Geography |
根据Stratistics MRC预测,2023年全球类比示波器市场规模将达615亿美元,预计2030年将达到1,155亿美元,预测期内年复合成长率为9.4%。
示波器是一种用于检测和监控电子设备发送和接收的电压和电流的检查检查装置。它的工作原理是捕获电信号,放大它们,并将它们以图表的形式显示在萤幕上。横轴表示时间,纵轴表示电压。这使您可以检查讯号形状、频率和振幅等特征。它是电子、通讯、汽车、航太等各行业的工程师、技术人员和研究人员的必备工具。
模拟示波器已广泛使用多年,许多工程师和技术人员熟悉它们的工作原理以及如何解释其模拟显示。由于类比示波器已经存在很长时间,因此已经获得了很大的市场占有率。类比示波器已成为经验丰富的工程师和技术人员在整个职业生涯中的常用工具。类比示波器掌握类比检测仪器的使用,包括讯号分析、波形解释和电路故障排除。我喜欢使用类比示波器,因为它们提供了丰富的知识并且易于使用。这支撑了市场需求。
与数位示波器相比,类比示波器的功能较少。类比示波器可以进行的基本检测是电压和时间检测。然而,它们不具备数位示波器的先进检测功能。类比示波器没有内建波形记忆体。使用者无法储存或呼叫波形以供以后分析或比较。对于需要进阶检测和分析技能的使用者来说,这种限制可能是一个重大障碍。
由于技术进步,模拟示波器的性能和容量已显着提高。先进的触发选项、自动检测、数位储存功能和用户友好的用户介面是现代类比示波器的标誌。此外,还提供内建任意波形产生器和频谱分析仪的版本。这些要素正在推动市场扩张。
科技日新月异,各产业的讯号越来越数位化。数位示波器非常适合直接处理这些数位讯号,因为它们可以更轻鬆地收集和解释数位资料。另一方面,类比示波器只能分析类比讯号,因此分析数位讯号需要额外的讯号转换。
COVID-19大流行示波器市场带来了挑战和机会。疫情早期阶段的全球供应链中断影响了类比示波器的製造和分销。由于製造工厂关闭和产能减少,产品供应延迟。疫情也减少了企业资本投资和研发支出,减少了对类比示波器等测量设备的需求。此次疫情增加了医疗保健、通讯和远距工作解决方案等领域对示波器的需求,凸显了电子和通讯基础设施之间的关键连结。
500MHZ 段预计将占据最大份额。 500MHz的频率相当于5亿赫兹。最受欢迎的示波器频宽是 500MHz,它为标准实验室应用提供高效能多通道功能。类比示波器最常见的频宽是 0 MHz,它们用于各种行业,包括通讯和消费性电子产品。 500MHz频宽大约在 20 年前首次推出,至今仍广泛用于日常检测任务。
预计消费电子领域在预测期内将出现良好成长。家用电子电器製造商在产品开发和品管的各个阶段都使用示波器。此外,类比示波器也用于製造和品质保证程序,以检查电子零件和子系统的性能和操作。随着家用电子电器变得越来越复杂、越来越小,类比示波器提供了对讯号行为的宝贵洞察,并帮助检测和解决问题。
亚太地区在预测期内获得了最大的份额,因为该地区拥有蓬勃发展的技术和电子产业,并且是示波器製造商和供应商的重要市场。学术机构、大型科技公司以及对示波器等电气测量和测试工具的高需求促成了这个巨大的产业。由于各种用途对模拟示波器的需求强劲,该地区的市场潜力仍然充满希望。许多国内外示波器製造商和供应商都在北美开展业务。
预计欧洲在预测期内将出现盈利成长。欧洲由众多工业化和技术发展水准不同的国家结构。市场核心为德国、英国、法国、义大利等西欧国家。许多领先的大学、研究机构以及汽车和科技公司都位于欧洲。这些组织和部门始终需要示波器用于研发、品管和教育目的。
According to Stratistics MRC, the Global Analogue Oscilloscope Market is accounted for $61.5 billion in 2023 and is expected to reach $115.5 billion by 2030 growing at a CAGR of 9.4% during the forecast period. An oscilloscope is a kind of testing device which is utilized for measuring and monitoring the voltage or current sent or received from an electronic device. Electrical signals are captured, amplified, and then displayed on the screen as a graph to make it function. The horizontal axis represents time, and the vertical axis illustrates voltage. This enables users to study the signals' form, frequency, amplitude, and other properties. It is an essential tool for engineers, technicians, and researchers working in various industries such as electronics, telecommunications, automotive, and aerospace.
Analog oscilloscopes have been used extensively for many years, and many engineers and technicians are familiar with how they work and how to interpret their analog displays. Since they have been in use for so long, analog oscilloscopes have developed a significant market share. Analog oscilloscopes have been a common tool for seasoned engineers and technicians throughout their careers. Professionals have mastered the use of analog instruments for signal analysis, waveform interpretation, and circuit troubleshooting. They favour using analog oscilloscopes because of their extensive knowledge and comfort with them. This factor enables the market demand.
Analog oscilloscopes are less functional than digital oscilloscopes. Measurements of voltage and time are among the fundamental measurements that analog oscilloscopes can do. However, they lack the advanced measurement features available in digital oscilloscopes. Waveform-storing memory is not integrated into analog oscilloscopes. Users cannot save or recall the waveform for later analysis or comparison; they can only view it when it is presented on the screen. For users who demand advanced measurement and analytical skills, this constraint may be a serious hindrance.
The performance and capacity of analog oscilloscopes have substantially improved because of technological breakthroughs. Advanced triggering options, automatic measurements, digital storage capabilities, and user-friendly user interfaces are now features of modern analog oscilloscopes. Additionally, certain versions are provided with integrated arbitrary waveform generators and spectrum analyzers. These factors propel the market expansion.
Technology is advancing quickly, and signals across a range of industries are becoming increasingly digital in character. Since they can more easily acquire and interpret digital data, digital oscilloscopes are better equipped to handle these digital signals directly. On the other hand, analog oscilloscopes can only analyze analog signals and need extra signal conversion for digital signal analysis.
The COVID-19 pandemic has presented both challenges and opportunities for the analog oscilloscope market. An interruption in the worldwide supply chain during the early stages of the pandemic had an impact on the manufacture and distribution of analog oscilloscopes. Product availability was delayed as a result of closures or reduced capacity at manufacturing plants. The epidemic also caused businesses to spend less money on capital projects and on research and development, which decreased demand for test and measurement tools like analog oscilloscopes. The pandemic increased demand for oscilloscopes in sectors like healthcare, telecommunications, and remote work solutions by highlighting the crucial relevance of electronics and telecommunications infrastructure.
The 500MHZ segment is estimated to hold the largest share. Frequency of 500 MHz is equivalent to 500 million Hz. One of the most well-liked oscilloscope frequency ranges is 500 MHz, which provides high-performance multi-channel capability for standard lab applications. The most typical bandwidth for analogue oscilloscopes is 0 MHz it is used in a variety of industries, including communications and consumer electronics. The 500 MHz bandwidth was first made available about 20 years ago and is still often employed for everyday measuring work today.
The consumer electronics segment is anticipated to have lucrative growth during the forecast period. Oscilloscopes are used by producers of consumer electronics at different stages of product development and quality control. Additionally, analog oscilloscopes are utilized in the manufacturing and quality assurance procedures to check the performance and operation of electronic parts and subsystems. Analog oscilloscopes offer useful insights into signal behavior and aid in problem detection and resolution as a result of the complexity and reduction in size of consumer electronic devices.
Asia Pacific commanded the largest market share during the extrapolated period due to its significant presence of technology and electronics industries, making it a substantial market for oscilloscope manufacturers and suppliers. Academic institutions, large technical companies, and a high demand for electrical measurement and testing tools like oscilloscopes all contribute to this sizeable industry. The market potential for the region is still promising due to the persistent demand for analog oscilloscopes across a range of applications. Numerous domestic and foreign oscilloscope producers and suppliers are located in North America.
Europe is expected to witness profitable growth over the projection period. It consists of numerous nations with different levels of industrialization and technological development. The core of the market is comprised of nations like Germany, the UK, France, and Italy in Western Europe. Numerous top colleges, research organizations, and automobile and technology firms are based in Europe. Oscilloscopes are constantly needed for research, development, quality control, and educational purposes by these organizations and sectors.
Some of the key players in the Analogue Oscilloscope Market include: Tektronix, Pico Technology, Tecpel, Tie Pie Engineering, LeCroy, SMT Max, HAMEG Instruments, Madell Technology, Keysight Technologies and B&K Precision.
In April 2023, Keysight Collaborates with Future Technologies to Deploy and Operate 5G Private Networks Across US. Collaboration addresses expanding market with solutions encompassing the design, deployment, delivery, and operations of dedicated 5G private networks.
In December 2020, Tektronix releases Tek Drive, groundbreaking data collaboration software to facilitate global data collaboration directly on an oscilloscope, PC, phone or tablet. Created to enable ultimate ease and accuracy in data accessibility and collaboration, Tek Drive provides engineers the ability to instantaneously share and recall data directly on an oscilloscope, eliminating the need for cumbersome data-sharing practices.