市场调查报告书
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到 2028 年的准直透镜市场预测 - 按来源、材料、波长、最终用户和地区进行的全球分析Collimating Lens Market Forecasts to 2028 - Global Analysis By Light Source, Material, Wavelength, End users and By Geography |
根据Stratistics MRC,2022年全球准直透镜市场规模将达到3.8883亿美元,预测期内以7.7%的复合年增长率增长,2028年将达到6.681亿美元,预计将达到3,000 美元。
准直透镜是一种辅助光学透镜,可在进入光谱仪之前使线条平行。 这些镜头有助于设置采样的照明和采集角度,并控制设备的视野、采集功率和空间分辨率。 此外,它还用于缩小光束的空间横截面并改善可视化。
根据 Zion Market Research 发布的一份报告,2019 年全球对准直透镜市场的需求价值约为 3.0547 亿美元,从 2020 年到 2026 年的复合年增长率约为 5.8%。预计将产生约 US到 2026 年底,收入将达到 4.5328 亿美元。
准直透镜是一种曲面光学设备,用于对准进入光谱仪装置的光束。 用户可以通过使用此镜头改变照明和采样收集角度来更改其设置的视野、收集效率和空间分辨率。 分光光度计、色度计、光度计等都是准直透镜的例子,用于确保进入仪器的光线平行并覆盖所需的测量区域。 在光学中,使用透镜。 例如,如果您希望在未来五年内扩展您的光学产品,准直透镜与其他类型的透镜相比具有许多优势。 因此,准直透镜在各个行业中的使用越来越多。 准直透镜可用于精确、清晰地转换光线。 准直透镜可用于调整视野、空间分辨率以及工具和设置的效率。
非球面镜片比球面镜片具有更高的光学性能,因此投资也更高。 高昂的生产成本使得各种终端用户难以采用非球面透镜以获得更好的性能,从而製约了准直透镜市场的扩张。
准直透镜市场已经显着改变了这个行业,光学传感器技术的最新发展创造了增长机会。 这些发展催生了一类用于不同类型的光-物质相互作用的设备,并用于监测各种应用、使用非接触式检测、量化分子和生成分析信号。 AQ2200光学传感器模块由日本跨国电气工程和软件公司横河电机株式会社于2020年7月更新推出。 对于需要高精度的各种应用,AQ2200-212 单通道光学传感器模块提供增强的测量性能和最小的不确定性。 因此,各种光学计量应用和非成像光学解决方案的推出有望推动准直透镜市场。
准直透镜需要极高的精度,这会使质量控制和产品测试变得困难。 峰谷值和粗糙度等几何参数经常用于镜片质量评估。 峰谷值和粗糙度等几何参数经常用于镜片质量评估。 在性能评估中,进行了实验来验证分析结果,并提出了模具抛光程序作为提高镜头质量的方法。 这会影响生产週期并推高成本。 一些几何参数如峰谷值和粗糙度在镜片质量评估中经常使用。
COVID-19 对日常生活的影响使人们的优先事项、组织政策和政府运作发生了重大转变。 像这样的新发现是创新和技术进步的推动力。 准直透镜是消费电子、医疗保健、IT/ITES、汽车、IT/电信和政府等行业硬件基础设施的重要组成部分。 据电子元件商业委员会称,COVID-19 的引入扰乱了该行业的其他业务,并推迟了新产品的发布。 由于锁定程序导致产品需求下降和製造能力限制,导致许多製造商暂时关闭运营。
汽车製造商不断努力使他们的产品与众不同,使其有别于竞争对手提供的汽车。 汽车製造商正在使用先进的照明技术,例如激光和 LED 前照灯,以使其产品与竞争对手的产品区分开来,从而推动市场发展。 因此,越来越多的汽车使用 LED 前照灯正在创造市场机会。
在预测期内,预计玻璃行业的复合年增长率最高,目前市场份额很大。 当光在物质中缓慢传播时,折射率会增加。 折射率计算为真空中的光速与透镜材料之间的差异。 因为光线穿过镜片材料的速度很慢,所以镜片的折射率越高,畸变量就越大。 因此,由于玻璃材料的高密度,玻璃准直透镜的市场将会增长。
北美将占据全球最大的激光准直透镜市场份额。 由于大公司的存在和尖端技术,对激光准直透镜的需求正在增加。 与其他镜头类型相比,它具有许多优点,例如增加应用和光学增长。 因此,准直透镜在工业中的应用越来越频繁。
由于中国和日本等国家/地区对 LiDAR 系统的需求不断增长以及在汽车应用中的使用不断增加,预计亚太地区在预测期内的复合年增长率将最高。. 在接下来的几年里,由于製药公司对光谱仪的需求不断增加,预计市场将会增长。 由于医疗、激光雷达、光学和显示计量以及光谱学等众多应用中越来越多地采用尖端技术,该市场的收入份额预计到 2021 年将超过 25%。
2022 年 10 月,Auer Lighting GmbH 获得了国际汽车工作组发布的 IATF 16949 开髮质量管理系统技术规范的认证。
2022 年 6 月,Ocean Insight 扩建了其在纽约州罗切斯特的设施。 该公司将加倍投入其工程、生产和支持设施。 新设施将专注于为包括消费电子在内的行业开发光谱系统。 新工厂占地 13,528 平方英尺,扩大了公司的生产能力并加强了其光电子产品组合和应用专业知识。
2022 年 5 月,Focuslight Technologies Inc. 宣布推出 Focuslight Blue Meniscus SAC。 这种新型慢轴准直器 (SAC) 的有效焦距 (EFL) 为 9.7 毫米。 它采用凹凸柱面透镜设计来准直激光二极管的慢轴。
According to Stratistics MRC, the Global Collimating Lens Market is accounted for $388.83 million in 2022 and is expected to reach $606.813 million by 2028 growing at a CAGR of 7.7% during the forecast period. Collimating lenses are the assisting optical lenses that align the lines to be parallel before entering the spectrometer. These lenses assist in setting the illumination and collection angles for sampling, as well as controlling the field of view, collection competence, and spatial resolution of their units. Additionally, it is used to narrow down the spatial section of light beams, improving visualization.
According to the report published by Zion Market Research, global demand for collimating lens market was valued at approximately USD 305.47 Million in 2019, and is expected to generate revenue of around USD 453.28 Million by end of 2026, growing at a CAGR of around 5.8% between 2020 and 2026.
Collimating lenses are curved optical devices used to align the light beams entering a spectrometer setup. Users can alter the setup's field of view, collection efficiency, and spatial resolution by using these lenses to change the lighting and sampling collection angles. Spectrophotometers, colorimeters, and light meters are a few examples of collimating lenses that are used to make sure the light entering an instrument is parallel and covers the required measuring area. In optical systems, lenses are used. In the upcoming five years, for instance, Collimating lenses are advantageous in many ways when compared to other kinds of lenses, especially when expanding optic systems. Collimation lenses are therefore being used more frequently in various industries. Light beams can be collimated with great accuracy and clarity using collimating lenses. Users can regulate the field of view, spatial resolution, and efficiency of their tools or setups by using collimating lenses.
Aspheric lenses offer more optical functionality than spherical lenses, which ultimately results in an expensive investment. Because of the high manufacturing costs, it is difficult for a variety of end users to adopt aspheric lenses for better performance, which restrains the collimating lens market's expansion.
The collimating lens market created opportunities for the growth by recent developments in optical sensor technology, which have significantly changed the industry. These developments have led to a class of devices that are used in various types of light-matter interactions to monitor, use contactless detection, quantify molecules, and generate analytical signals for a variety of applications. The AQ2200 optical sensor modules were updated and released by the Japanese multinational electrical engineering and software company Yokogawa Electric Corporation in July 2020. For a variety of applications that require high accuracy, the AQ2200-212 single-channel optical sensor module offers improved measurement performance and minimal uncertainty. As a result, it is anticipated that the introduction of various optical measuring applications and non-imaging optics solutions will propel the collimating lens market.
Due to the extreme precision needed in collimating lenses, quality control and product testing can be difficult. Some geometric parameters, like peak-valley value and roughness, are frequently used in the evaluation of lens quality geometric parameters, like peak-valley value and roughness, are frequently used in the evaluation of lens quality. According to performance evaluation, experiments are done to validate the analysis, and a mold polishing procedure is offered as a way to improve lens quality. This can affect the production cycle and raise costs. Some geometric parameters, like peak-valley value and roughness, are frequently used in the evaluation of lens quality.
Significant alterations in people's priorities, organizations' policies, and governmental operations were brought about by the effects of COVID-19 on daily life. These new findings fuel innovation and technological progress. Collimating lenses are essential components of the hardware infrastructure for industries such as consumer electronics, healthcare, IT and ITES, automotive, telecommunications, and government. The introduction of COVID-19, according to the Electronic Components Business Association, has hampered other business operations in the industry and delayed the launch of new products. Numerous manufacturers have temporarily ceased operations as a result of the reduced product demand caused by lockdown procedures and the constrained manufacturing capacity.
Automobile manufacturers constantly strive to make their products unique by differentiating their vehicles from those offered by their competitors. Automobile producers are using laser and LED headlamps and other advanced lighting technologies to set their products apart from those of rivals, which is helping to drive the market. As a result, market opportunities are created by the growing use of LED headlamps in automobiles.
The market's highest CAGR is anticipated for the glass segment during the forecast period, which currently holds a sizable market share. Light travels through materials more slowly, the higher their refractive index. The refractive index is calculated as the difference between the speed of light in a vacuum and the material of the lens. Light moves more slowly through the lens material, increasing the amount of refractive distortion. Therefore, the market for glass collimating lenses will experience growth due to higher glass material density.
North America will hold the largest market share for laser collimating lenses globally. The demand for laser collimating lenses is increasing due to the presence of major players and cutting-edge technologies. There are many benefits when compared to other lens types, including an increasing number of applications and the growth of optic systems. Collimation lenses are consequently employed more frequently in industry.
Asia Pacific is projected to have the highest CAGR over the forecast period, due to the rising demand for LiDAR systems in nations like China and Japan, by the growing use of these systems in automotive applications. Over the next years, the market will grow as a result of rising pharmaceutical company demand for spectroscopy equipment. The high adoption of cutting-edge technologies in numerous applications, including medical, lidar, light and display measurement, and spectroscopy, will cause markets revenue share to exceed 25% in 2021.
Some of the key players in Collimating Lens market include AMS Technologies AG, Auer Lighting GmbH, Avantes BV, Axetris AG, Bentham, Broadcom, CASIX, Edmund Optics Inc., FISBA AG, Focuslight Technologies Inc., Hamamatsu Photonics K.K., Ingeneric GmbH, IPG Photonics Corporation, Lightpath Technologies, Ocean Optics, Inc., Optikos Corporation, Quarton Inc, , The Optoelectronics Co. Ltd., Thorlabs, Inc., Trioptics GmbH and Ushio America, Inc.
In October 2022, Auer Lighting GmbH received certification from IATF 16949 technical specifications to develop a quality management system issued by the international automotive Task Force.
In June 2022, Ocean Insights expanded its Rochester, N.Y facility. The company is doubling its engineering, production, and support facility. The new facility will focus on developing a spectral system for industries, including consumer electronics. The new 13,528-square-foot facility will expand the company's production capabilities and strengthen its photonics product and application expertise portfolio.
In May 2022, Focuslight Technologies Inc. unveiled the Focuslight Blue Meniscus SAC. This new Slow Axis Collimator (SAC) features an effective focal length (EFL) of 9.7 mm. It has a concave-convex, a cylindrical lens design for collimating the slow axis of laser diodes.