市場調查報告書
商品編碼
1401947
到 2030 年半導體雷射氣體分析儀的全球市場預測:按類型、應用、最終用戶和地區分類的全球分析Laser Gas Analyzer For Semiconductors Market Forecasts to 2030 - Global Analysis By Type, Application, End User and by Geography |
根據Stratistics MRC預測,2023年全球半導體雷射氣體分析儀市場規模將達10億美元,預計2030年將達到18.8755億美元,預測期內複合年成長率為9.5%。
半導體雷射氣體分析儀 (LGA) 是半導體製造流程中用於精確監測和分析氣體濃度的精密儀器。該分析儀採用最先進的雷射技術來識別和量化半導體製造所必需的微量氣體,例如製程氣體和摻雜氣體。
根據半導體產業標準和要求,雷射氣體分析儀(LGA)是製造過程中監測和分析氣體濃度的重要工具。
半導體製造的複雜性不斷增加
由於不斷追求技術進步,半導體製造流程變得更加複雜。隨著這些過程變得更加複雜,對準確監控工具的需求也隨之增加。此外,LGA 還透過提供先進的氣體分析功能來滿足這一需求,幫助半導體設施保持理想的條件、避免污染並應對現代半導體製造的複雜世界。
昂貴的初期成本
將雷射氣體分析儀 (LGA) 涵蓋半導體製造流程需要大量的前期投資。最新的 LGA 技術是有價格標籤的,但安裝、員工培訓和持續維護也是如此。此外,財務負擔可能會讓小型半導體公司或預算緊張的公司感到厭惡。即使具有長期節省成本和提高效率的潛力,LGA 的高昂初始成本仍然是其在半導體行業廣泛採用的主要障礙。
感測技術的發展
由於感測器技術的不斷進步,包括靈敏度、選擇性和小型化方面的改進,LGA 具有很大的潛力。改進的感測器性能將使氣體分析更加準確和靈活,擴大半導體產業的應用範圍。此外,LGA 還可以透過與開發感測器技術的公司結盟和建立夥伴關係來主導創新。
成本壓力與價格競爭
半導體產業內的價格競爭可能會對LGA的盈利造成壓力。半導體製造商解決方案的成本效益使得LGA的定價策略極為重要。此外,在承受能力和維持高性能標準之間取得平衡對於確保 LGA 製造商的財務生存能力不會受到定價壓力的不利影響至關重要。
COVID-19的爆發對半導體產業的雷射氣體分析儀(LGA)市場產生了重大影響,導致供需雙方中斷。受勞動力限制、旅行限制和製造停工的影響,生產計劃和供應鏈物流已成為 LGA 製造商的營運挑戰。此外,疫情帶來的經濟不確定性所帶來的預算限制可能會影響半導體公司,推遲 LGA 等最尖端科技的採用,並影響投資決策。
可調諧二極體雷射吸收光譜(TDLAS)領域預計在預測期內達到頂峰
可調諧二極體雷射吸收光譜(TDLAS)擁有最大的佔有率。由於TDLAS系統在微量氣體濃度測量方面具有高靈敏度、高選擇性和高精度,廣泛應用於排放氣體控制、工業製程和環境監測等產業。此外,TDLAS 技術透過使用可調諧二極體雷射掃描目標氣體的吸收線,提供準確、即時的測量。其適應性允許現場和提取應用,滿足各種監測要求。
電力產業預計在預測期內複合年成長率最高
複合年成長率最高的領域是電力產業。隨著越來越多的資金投入太陽能和風能等可再生能源計劃,電力產業正在改變。政府措施、環境法規和公眾對氣候變遷的認知正在推動電力產業採用更多樣化和綠色的能源結構。此外,最尖端科技的實施和對能源效率的重視支持了該行業的積極成長軌跡,並使我們成為不斷變化的全球能源形勢中的關鍵參與企業。
亞太地區佔據氣體分析儀最大的市場佔有率,包括量子級聯雷射(QCL)和可調諧二極體雷射吸收光譜(TDLAS)等技術。由於中國、日本和印度等國家的強勁工業化、製造業成長和嚴格的環境法規,現代氣體分析技術的需求量很大。此外,該地區對環境監測、工業安全協議和排放氣體法規的日益重視也加速了氣體分析儀的採用。
中東和非洲地區的複合年成長率最高。在中東和非洲地區,各行業對氣體分析儀的需求顯著增加,這主要是由於工業化的進步、更嚴格的環境法規以及對安全標準的日益重視。此外,石油和天然氣行業的成長以及基礎設施投資正在推動對先進氣體分析技術的需求,特別是在沙烏地阿拉伯和阿拉伯聯合大公國。
According to Stratistics MRC, the Global Laser Gas Analyzer for Semiconductors Market is accounted for $1000.00 million in 2023 and is expected to reach $1887.55 million by 2030 growing at a CAGR of 9.5% during the forecast period. A semiconductor laser gas analyzer, or LGA, is an advanced device used in semiconductor manufacturing processes to precisely monitor and analyze gas concentrations. This analyzer uses cutting-edge laser technology to identify and quantify trace amounts of gases, such as process and dopant gases, that are essential to the manufacturing of semiconductors.
According to semiconductor industry standards and requirements, the Laser Gas Analyzer (LGA) serves as a crucial tool for monitoring and analyzing gas concentrations in manufacturing processes.
Increasing complexity in the manufacturing of semiconductors
Semiconductor manufacturing processes have become significantly more complex as a result of the unrelenting pursuit of technological advancements. The need for accurate monitoring tools increases with the complexity of these processes. Moreover, by providing advanced gas analysis capabilities, LGAs meet this need by helping semiconductor facilities maintain ideal conditions, avoid contamination, and negotiate the complex world of contemporary semiconductor production.
Expensive upfront costs
A large upfront investment is required for the integration of laser gas analyzers (LGAs) into semiconductor manufacturing processes. Modern LGA technology comes at a price, but there are also out-of-pocket costs for installation, employee training, and continuing maintenance. Additionally, for smaller semiconductor companies or those with tighter budgets, the financial commitment might be a turnoff. Even with the potential for longer-term cost savings and increased efficiency, the high initial cost of LGAs continues to be a significant barrier to their widespread adoption in the semiconductor industry.
Developments in sensing technologies
LGAs have a lot of potential due to ongoing advancements in sensor technologies, including increases in sensitivity, selectivity, and miniaturization. Improved sensor capabilities can help produce gas analyses that are even more precise and adaptable, which can increase the range of uses for the semiconductor industry. Furthermore, LGAs can take the lead in innovation by forming alliances and partnerships with companies that develop sensor technology.
Cost pressures and pricing wars
Price wars resulting from price competition within the semiconductor industry can put pressure on LGA profitability. The cost-effectiveness of semiconductor manufacturers' solutions makes the pricing strategy of LGAs crucial. Moreover, achieving a balance between affordability and upholding high performance standards is crucial in order to prevent LGA manufacturers' financial viability from being negatively impacted by price pressure.
The COVID-19 pandemic had a substantial effect on the semiconductor industry's laser gas analyzer (LGA) market, causing disruptions in both supply and demand. Production schedules and supply chain logistics were impacted by workforce constraints, travel restrictions, and manufacturing shutdowns that presented operational challenges for LGA manufacturers. Furthermore, budgetary constraints brought about by the pandemic's economic uncertainty affected semiconductor companies, potentially postponing the adoption of cutting-edge technologies like LGAs and influencing investment decisions.
The Tunable Diode Laser Absorption Spectroscopy (TDLAS) segment is expected to be the largest during the forecast period
The Tunable Diode Laser Absorption Spectroscopy (TDLAS) segment holds the largest share. Due to their high sensitivity, selectivity, and precision in measuring trace gas concentrations, TDLAS systems are extensively used in a wide range of industries, including emissions control, industrial processes, and environmental monitoring. Moreover, TDLAS technology provides precise and real-time measurements by scanning across target gas absorption lines with a tunable diode laser. Its adaptability enables both in-situ and extractive applications, meeting various requirements for monitoring.
The Power Industry segment is expected to have the highest CAGR during the forecast period
The segment with the highest CAGR is the power industry. With more money going toward renewable energy projects like solar and wind power, the power industry is changing. Government initiatives, environmental regulations, and public awareness of climate change are driving the power industry to adopt a more diverse and environmentally friendly energy mix. Additionally, the adoption of state-of-the-art technologies and an emphasis on energy efficiency support the industry's positive growth trajectory and position it as a major player in the evolving global energy landscape.
Asia-Pacific holds the largest market share for gas analyzers, encompassing technologies such as quantum cascade laser (QCL) and tunable diode laser absorption spectroscopy (TDLAS). Modern gas analysis technologies are in high demand due to strong industrialization, growing manufacturing sectors, and strict environmental regulations in nations like China, Japan, and India. Furthermore, the adoption of gas analyzers has also been accelerated by the region's growing emphasis on environmental monitoring, industrial safety protocols, and emission control.
The Middle East and Africa (MEA) region is showing the highest CAGR. The need for gas analyzers is rising significantly in the MEA region across a range of industries, primarily due to growing industrialization, stricter environmental regulations, and an increased focus on safety standards. Moreover, advanced gas analysis technologies are in high demand due to the growing oil and gas industry and investments in infrastructure, especially in Saudi Arabia and the United Arab Emirates.
Some of the key players in Laser Gas Analyzer For Semiconductors market include ABB, Chongqing Chuanyi Automation, Baker Hughes, Shanghai ChangAi, AMETEK, Hangzhou Chunlai Technology Co., Ltd., Fuji Electric, AnHui Wanyi Science and Technology, Siemens, Yokogawa Electric, Teledyne Analytical Instruments, Boreal Laser, Sinosteel Accurate (WuHan) Technology, Focused Photonics Inc., Nanjing KELISAIKE Landun Photoelectron, Shanxi Guohui Huaguang and Emerson.
In November 2023, Energy tech major Baker Hughes and Wison (Nantong) Heavy Industry, an affiliate of Wison Offshore & Marine (WOM) have signed a memorandum of understanding (MoU) to collaborate on future offshore floating LNG (FLNG) and onshore LNG projects.
In November 2023, AMETEK has entered into a definitive agreement to acquire Paragon Medical, a provider of highly engineered medical components and instruments, from affiliates of American Securities in an all-cash transaction valued at approximately $1.9 billion.
In October 2023, ABB and Carnival ink 15-year Azipod XO maintenance agreement. Since ABB secured its first Azipod propulsion order for the Carnival Cruise Line ship Carnival Elation in 1995, Carnival Corporation has gone on to specify Azipod propulsion for more than 40 vessels in its various cruise brands. Now the cruise giant has signed a 15-year maintenance agreement with ABB covering the Azipod XO propulsion systems that power vessels operating for several of its brands.