市场调查报告书
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光刻设备市场 - 全球行业规模、份额、趋势、机会和预测,2017-2027 年,按类型、波长、设备波长、最终用途、应用、地区Photolithography Equipment Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2017-2027 By Type, By DUV Type (ArFi ), By Wavelength, By Device Wavelength, By End-Use, By Application, By Region |
全球光刻设备市场预计在 2021 年达到 159.402 亿美元,到 2027 年復合年增长率为 16.70%。
对光刻设备的需求主要是由电子设备小型化需求的增加、物联网的日益普及以及半导体行业的扩张所推动的。 此外,高昂的设备维护和运营成本以及对曲面的支持有限等因素也阻碍了全球光刻设备市场的增长。 此外,Covid 大流行期间的封锁影响了整个供应炼和对光刻设备的需求。
智能家居设备、可穿戴健康监测器、娱乐设备等在消费电子产品领域越来越受欢迎。 预计消费者将倾向于使用智能恆温器、灯泡和开关等节能智能家居产品,以节省高额电费。 因此,从电子产品的全自动系统到智能家居的过渡,其中所有的家用电器都相互连接以创建一个单一的控制单元,这将导致 IC 和光刻技术的广泛采用。 消费者对更好的电子产品的需求不断增加,这鼓励製造商推出功能更多、更好的消费产品。 智能可穿戴设备被称为可穿戴技术,如智能手錶、健身追踪器、智能织物等,需要使用光刻技术的 IC,预计在预测期内将增加对光刻设备的需求。
目前,在全球芯片短缺的背景下,半导体行业正致力于提高产能。 半导体行业的主要参与者正在投资开发新的製造工艺和扩建旧设施。 因此,越来越多的製造技术采用和投资正在推动光刻设备的全球市场。 例如,在全球市场占有很大份额的台湾晶圆代工厂龙头台积电,已将80%的资金用于扩大先进芯片製造技术公司的能力,并投资于深紫外光刻技术。 这些因素正在推动市场的增长。
人工智能应用的演进和云性能的提升都可以通过深紫外光刻法来实现。 更高的芯片性能和更低的功耗是云端和人工智能应用的首选。 此外,随着对 DUV 曝光设备的需求不断增加,光掩模製造商面临着加快生产复杂多图案 DUV 曝光工作所需的光掩模的压力。 我们也知道DUV曝光设备比EUV曝光设备有更高的适销性。 这些市场发展预计将在预测期内支持全球光刻设备市场的扩张。
在半导体行业,随着对高性能电子产品的需求增加,小型化电子产品越来越受欢迎。 此外,对创新消费电子产品不断增长的需求推动了对灵活紧凑的集成电路的需求。 此外,RFID、MEMS 设备和其他功率设备等技术的发展也增加了对薄晶圆的需求。 这是因为薄晶圆会降低封装厚度,尤其是在智能手机、手持设备和小型电子产品中。 使用这种超薄和超薄芯片的应用的发展增加了对小型电子设备的需求,导致全球光刻设备市场的扩大。
近年来,半导体行业创造了人工智能和机器学习等突破性技术。 此外,随着数字革命的展开,需要具有更强大处理和存储能力的更先进的设备。 此外,供应链中断和由 COVID-19 危机引起的地缘政治紧张局势加剧,增加了半导体公司对建立先进技术的端到端设计和製造能力的兴趣。 在此背景下,多国政府致力推动本土半导体产业,有望对全球光刻设备市场产生影响。 例如,韩国推出K-Belt半导体战略,聚焦区域集群。 该战略包括放鬆管制、基础设施发展、8.86 亿美元的长期融资,以及高达 50% 的研发税收抵免和 16% 的製造业税收抵免。 因此,预计在预测期内,全球光刻设备市场的扩张将受到类似于半导体行业的研发活动的扩大所推动。
TechSci Research 根据市场数据为贵公司的特定需求提供定制服务。 该报告可以定制为:
Global Photolithography Equipment Market stood at USD 15,904.02 million in 2021 and is forecast to register a CAGR of 16.70% by 2027. The demand for photolithography equipment is primarily driven by the high demand for smaller electronic devices, increasing internet of things penetration and the expansion of the semiconductor industry. Moreover, the factors such as high equipment maintenance and operational cost, and limitation for curved surfaces hinder the growth of Global Photolithography Equipment Market. In addition to this, lockdown during the covid pandemic impacted the overall supply chain and demand for photolithography devices.
A photolithography equipment uses light to imprint patterns on a substrate. By etching away material with minute details, this patterning can be used to make goods such as circuit boards or microchips. The semiconductor and microelectronics industries employ photolithography equipment to pattern thin sheets of material on a substrate. The capability of photolithography equipment to fabricate incredibly tiny objects on a substrate is its main benefit. Furthermore, it is used to transfer a specific pattern from an image onto a substrate, creating a pattern that serves as a mask during an etching or diffusion process, to create semiconductor devices, thin-film circuits, optical devices, and printed circuits.
Smart home devices, wearable health monitors, and entertainment devices are gaining popularity in the consumer electronics world. Consumers are expected to gravitate towards energy-efficient smart home products such as smart thermostats, light bulbs, and switches to save on high electricity bills. Therefore, the transition of electronic goods from fully automated systems toward the emergence of a smart home that interconnects all the household devices to create a single controlling unit will result in the high adoption of ICs and photolithography techniques. Manufacturers are encouraged to introduce better consumer products with improved functionalities due to the growing consumer demand for better electronics. Smart wearables, also known as wearable technology, include smartwatches, fitness trackers, and smart fabrics and require ICs using the photolithography technique, which is likely to augment the demand for photolithography equipment during the forecast period.
Presently, the semiconductor industry is focused on increasing its production capacity due to the chip shortage witnessed globally. Key players in the industry are focusing on investment in the development of new fabrication processes and expansion of older facilities. Thus, rise in adoption and investments in fabrication technology are boosting the Global Photolithography Equipment Market. For instance, TSMC, which is Taiwan's leading pure play foundry, holds a prominent share in the global market and has spent 80% of its capital to extend capacities of advanced chip manufacturing technology companies and to invest in deep UV lithography. Hence, these factors are fueling the market growth.
The advancements in AI applications and the improvement of cloud performance are both possible with DUV type photolithography methods. In cloud and AI applications, better chip performance and lower power requirements are preferred. Additionally, as a result of the increased demand for DUV lithography systems, photomask producers are being forced to speed up the production of the photomasks needed for complex multi-patterning DUV lithography operations. It has been discovered that DUV lithography systems have higher market prospects than EUV platforms. During the projected period, these developments are expected to support the expansion of the global photolithography equipment market.
Miniaturized electronic equipment are gaining popularity in the semiconductor industry with the increase in demand for high-performance electronics. In addition, the rising demand for innovative consumer electronics drives the need for flexible and compact integrated circuits. In addition, the growth of technologies such as RFID, MEMS devices, and other power devices increases the demand for thin wafers. This is because thin wafers reduce package thickness, particularly for smartphones, handheld gadgets, and compact electronic items. These developing applications that employ extremely thin and ultrathin die generate substantial demand for tiny electronic devices and contribute toward expanding the global photolithography equipment market.
Artificial intelligence and machine learning are two examples of ground-breaking technologies made possible in recent years by the semiconductor industry. Moreover, even more sophisticated devices with more powerful processing and memory capabilities will be needed to advance the digital revolution. In addition, semiconductor businesses have become more interested in establishing end-to-end design and manufacturing capabilities for cutting-edge technology as a result of the COVID-19 crisis disrupting supply chains and rising geopolitical tensions. Many governments are working to promote their regional semiconductor sector since they share this interest, which is probably going to have an impact on the global photolithography equipment market. For instance, to concentrate on regional clusters, South Korea introduced the K-Belt semiconductor strategy. The plan comprises lenient rules, improved infrastructure, long-term financing of USD 886 million, significant tax credits of up to 50% for research and development and 16% for manufacturing. Therefore, the expansion of the global photolithography equipment market during the projected period is likely to be fuelled by expanding R&D activities as well as the semiconductor industry.
Global Photolithography Equipment Market is segmented on the basis of type, DUV type, wavelength, device wavelength, end-use, application, region and competitive landscape. By Type, the market is segmented into EUV (Extreme Ultraviolet) and DUV (Deep Ultraviolet). By DUV Type, the market is segmented into ArFi (Argon Fluoride Immersion), KrF (Krypton Fluoride), ArF (Argon Fluoride) and I-Line. By wavelength, the market is segmented into 1nm-170nm, 170nm-270nm and 270nm-370nm. By device wavelength, the market is segmented into mercury lamps, fluorine lamps, excimer lasers and laser produced plasma. By end-use, the market is segmented into IDMs (Integrated Device Manufacturer) and foundries. By application, the market is segmented into back-end and front-end. By region, the market is segmented into Asia-Pacific, North America, Europe, South America, Middle East and Africa.
ASML Holding N.V., Canon Inc., EV Group (EVG), GlobalFoundries Inc., Nikon Corporation, Veeco Instruments Inc., SUSS MicroTec SE, Taiwan Semiconductor Manufacturing Company Limited, Eulitha AG, NuFlare Technology Inc. are among the major market players in the Global Photolithography Equipment Market.
In this report, Global Photolithography Equipment Market has been segmented into the following categories in addition to the industry trends which have also been listed below:
DUV (Deep Ultraviolet)
EUV (Extreme Ultraviolet)
ArFi (Argon Fluoride Immersion)
KrF (Krypton Fluoride)
ArF (Argon Fluoride)
I-line
170nm - 270nm
1nm - 170nm
270nm - 370nm
Excimer Lasers
Laser Produced Plasma
Fluorine Lamps
Mercury Lamps
IDMs (Integrated Device Manufacturer)
Foundries
Back-End
Front-End
Asia-Pacific
North America
Europe
South America
Middle East and Africa
Company Profiles: Detailed analysis of the major companies present in the Global Photolithography Equipment Market.
With the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report: