市場調查報告書
商品編碼
1401904
2030 年電力調節器市場預測:按產品、電壓、相位、應用和地區進行全球分析Electric Power Regulator Market Forecasts to 2030 - Global Analysis By Product (Switching and Linear), Voltage (<40 kVA, > 40 kVA to 250 kVA and > 250 kVA), Phase, Application and By Geography |
根據Stratistics MRC的數據,2023年全球功率調節器市場規模為30.8億美元,預計在預測期內將以10.2%的複合年成長率成長,到2030年達到60.8億美元。
電力調節器是一種設計用於控制和穩定電氣系統中的電壓、電流和電能品質的設備或系統。其主要功能是確保提供給連接的裝置和設備的電氣參數保持在規定的範圍內,防止損壞並確保電氣和電子元件的可靠運作。儘管輸入電源出現波動,電源調節器仍能維持穩定的輸出電壓。這使得連接的設備和裝置能夠接收一致且可靠的電壓位準。
不斷成長的工業部門
工業部門的成長是電力調節器市場的關鍵促進因素。工業應用需要穩定、可靠、高品質的電源,而功率調節器在確保高效的電源管理和控制方面發揮關鍵作用。此外,這些行業有不同的電力需求,從重型機械和設備到敏感電子設備。電力調節器能夠精確控制電壓和電流水平、無功功率補償和負載平衡,以確保高效的電力利用並最大限度地減少能源浪費。
缺乏意識
許多潛在用戶,尤其是小型或新興市場的潛在用戶,對電源調節器及其優點的了解和理解可能有限。這種意識的缺乏會阻礙市場普及和成長。然而,功率調節器涉及電壓調節器、功率因數校正和負載管理的複雜概念和技術。如果沒有適當的知識和理解,最終用戶可能無法意識到電源調節器在最佳化供電、保護設備和提高能源效率方面的價值和重要性。
技術進步
技術進步是電源調節器市場的關鍵促進因素。透過開拓這些新興市場,功率調節器的容量和功能已經完全改變,從而導致市場佔有率和採用率的增加。絕緣柵雙極電晶體(IGBT) 和碳化矽 (SiC) 裝置等電力電子裝置可提供更快的開關速度、更低的功率損耗和更高的熱性能。這些發展使得能夠開發出更可靠、更有效率、具有更高功率密度的功率調節器。此外,網路和通訊功能的整合也促進了智慧型電力調節器的發展。
互通性問題
互通性問題對功率調節器市場構成了重大威脅,因為它們阻礙了電力系統內不同組件的無縫整合。整個電力基礎設施的功能不足可能是由於奇怪的通訊協定或不同製造商的設備之間的不相容性造成的。然而,不相容性可能會增加系統故障和斷電的風險,從而導致通訊、電網不同組件之間的協調受損以及資料傳輸錯誤。
由於封鎖措施、旅行限制和工廠關閉,疫情對全球供應鏈造成了嚴重破壞。電源調節器的供應和生產中斷導致了製造、出貨和交貨的延誤。此外,疫情造成的經濟困難和不確定性推遲了新電力基礎設施計劃的投資。許多公司和政府已決定推遲或縮減其配電和發電網路現代化和擴展的計劃。這一延遲也對電源調節器市場產生了間接影響。
預計工業領域在預測期內將是最大的
工業領域估計佔據最大佔有率。工業製程通常涉及複雜的機械和敏感設備,需要穩定且受控的電源。面對電網波動,工業電力調節器對於將電壓等級維持在指定的容差範圍內至關重要。此外,電壓調節對於避免設備損壞、提高製程效率和維持產品品質標準尤其重要。即使在惡劣的工作條件下,能夠處理更高功率負載的工業電源調節器也堅固耐用。
預計單相細分市場在預測期間內複合年成長率最高
電力調節器的單相部分預計在預測期內將出現良好的成長。單相電壓調節器對於使用單一交流(AC)波形的系統的電力控制和調節至關重要。家庭、小型企業和某些工業環境中的應用需要單相穩壓器。它通常與兩個導體一起工作:相導體和中性導體。需要單相穩壓器來保護家庭、辦公室和小型企業中常見的敏感電子器材與設備。緊湊的設計、易於使用的控制以及對不同負載條件的適應性定義了單相解決方案的功率調節器,它是為各種常見應用提供可靠電源的首選。可見功率調節器所發揮的重要作用。
在估計期間,北美佔據了最大的市場佔有率。北美是一個充滿活力、技術先進的地區,擁有強大的能源系統。隨著智慧電網技術和數位電壓調節解決方案推動北美市場的發展,能源效率變得越來越重要。此外,該地區對提高電網彈性、簡化能源發行和遵守不斷變化的環境標準的關注正在推動對創新和智慧型電壓調節器的需求。
預計歐洲在預測期內將出現盈利成長。歐洲是一個多元化和創新的地區,其特點是能源形勢充滿活力。歐洲既有已開發經濟體,也有新興經濟體,因此重點關注工業自動化、再生能源來源整合、法律規範等。此外,歐洲國家正積極投資智慧電網技術,推廣數位電壓調節器的採用,並發展電力基礎設施。由於工業自動化和能源系統數位化,電力調節器也正在採用新技術。憑藉其創造性思維和對永續實踐的奉獻,該地區成為決定電力調節器世界狀況的主要力量。
According to Stratistics MRC, the Global Electric Power Regulator Market is accounted for $3.08 billion in 2023 and is expected to reach $6.08 billion by 2030 growing at a CAGR of 10.2% during the forecast period. An electric power regulator is a device or system designed to control and stabilizes the voltage, current, or power quality in an electrical system. Its primary function is to ensure that the electrical parameters supplied to connected devices or equipment remain within specified limits, preventing damage and ensuring the reliable operation of electrical and electronic components. Electric power regulators maintain a stable output voltage despite fluctuations in the incoming power supply. This ensures that connected devices and equipment receive a consistent and reliable voltage level.
Growing industrial sector
The growing industrial sector is a significant driver in the electric power regulator market. Industrial applications require a stable, reliable, and high-quality power supply to support their operations, and electric power regulators play a crucial role in ensuring efficient power management and control. Moreover, these industries have diverse power requirements, ranging from heavy machinery and equipment to sensitive electronic devices. Electric power regulators enable precise control of voltage and current levels, reactive power compensation, and load balancing, ensuring efficient power utilization and minimizing energy waste.
Lack of awareness
Many potential users, particularly in smaller or less developed markets, may have limited knowledge and understanding of electric power regulators and their benefits. This lack of awareness can hinder the widespread adoption and growth of the market. However, electric power regulators involve complex concepts and technologies related to voltage control, power factor correction, and load management. Without proper knowledge and understanding, end-users may not recognize the value and importance of power regulators in optimizing power supply, protecting equipment, and improving energy efficiency.
Technological advancements
Technological advancements are a significant driver in the electric power regulator market. Power regulators' capacities and functions have been completely transformed by these developments, which has led to a rise in market share and adoption of these devices. Power electronic devices, such as insulated gate bipolar transistors (IGBTs) and silicon carbide (SiC) devices, offer higher switching speeds lower power losses, and improved thermal performance. These developments have made it possible to create power regulators with higher power densities that are more dependable and efficient. Moreover, the creation of intelligent power regulators has been made easier by the integration of networking and communication capabilities.
Interoperability issues
Interoperability issues pose a significant threat to the electric power regulator market as they hinder the seamless integration of diverse components within power systems. Inadequacies in the overall functioning of the power infrastructure can result from odd communication protocols and incompatibilities between devices made by different manufacturers. However, the risk of system failures and outages can be increased by incompatibility, which can lead to miscommunications, hampered coordination amongst different components of the power grid, and data transmission errors.
The pandemic caused significant disruptions in global supply chains due to lockdown measures, travel restrictions, and factory closures. Manufacturing, shipping, and delivery delays resulted from these disruptions to the supply and production of electric power regulators. Moreover, the pandemic's economic hardships and uncertainty caused investments in new power infrastructure projects to be postponed. Many companies and governments have decided to delay or reduce their plans to modernize and expand their power distribution and generation networks. There was an indirect effect of this delay on the market for electric power regulators.
The industrial segment is expected to be the largest during the forecast period
The industrial segment is estimated to hold the largest share. Complex machinery and delicate equipment are frequently used in industrial processes, necessitating a steady and controlled power supply. Industrial-grade electric power regulators are essential for maintaining voltage levels within predetermined tolerances in the face of grid fluctuations. Moreover, in order to avoid damaging equipment, increase process efficiency, and uphold product quality standards, voltage regulation is especially important. Higher power loads can be handled by industrial-grade electric power regulators, which also provide robustness and durability in demanding operating conditions.
The single phase segment is expected to have the highest CAGR during the forecast period
The single phase segment is anticipated to have lucrative growth during the forecast period Single-phase voltage regulators in electric power regulators are essential for controlling and regulating electrical power in systems that use a single-alternating current (AC) waveform. Single-phase regulators are necessary for applications at home, in small businesses, and in some industrial settings. They operate on two conductors, typically a phase conductor and a neutral conductor. Protecting delicate electronic appliances and devices that are frequently found in homes, offices, and small businesses requires single-phase regulators. Compact designs, easy-to-use controls, and adaptability to a variety of load conditions define the electric power regulator for single-phase solutions, which is indicative of the crucial role they play in offering a reliable power supply for a variety of common applications.
North America commanded the largest market share during the extrapolated period. North America is a vibrant, technologically sophisticated region with a strong energy system. Energy efficiency is becoming more and more important and smart grid technologies and digital voltage regulation solutions are driving the market in North America. Furthermore, the region's emphasis on improving grid resilience, streamlining energy distribution, and adhering to changing environmental standards is driving demand for creative and intelligent voltage regulators in this region.
Europe is expected to witness profitable growth over the projection period. Europe emerges as a diverse and innovative region characterized by a dynamic energy landscape. Europe is home to both developed and developing economies, and as such, it is heavily focused on industrial automation, integration of renewable energy sources, and regulatory frameworks. Additionally, European countries are actively investing in smart grid technologies, fostering the deployment of digital voltage regulators, and advancing their power infrastructure. New Electric Power Regulator technologies are also being adopted as a result of the drive for industrial automation and the digitalization of energy systems. The region is a major force in determining the global landscape of electric power regulators because of its creative thinking and dedication to sustainable practices.
Some of the key players in the Electric Power Regulator Market include ABB, Microchip Technology Inc., Eaton, Infineon Technologies AG, Siemens, Schweitzer Engineering Laboratories, Inc., Exar Corporation, Renesas Electronics Corporation, General Electric, Toshiba Energy Systems & Solutions Corporation , Hindustan Power Control System, Maschinenfabrik Reinhausen GmbH. A, Selvon Instruments Pvt. Ltd., Basler Electric and J. Schneider Elektrotechnik GmbH.
In March 2023, Eaton and Sun verge, the provider of an industry-leading distributed energy resource (DER) control, orchestration and aggregation platform, announced expanded collaboration to enable dynamic utility management of home electric vehicle (EV) charging infrastructure.
In October 2021, Microchip and Acacia Collaborate to Enable Market Transition to 400G Pluggable Coherent Optics for Data Center Routing, Switching and Metro OTN Platforms.