市场调查报告书
商品编码
1419592
全球三相电力电容器市场评估:依产品类型、额定电压、应用、最终用户、地区、机会、预测(2017-2031)Three Phase Power Capacitors Market Assessment, By Product Type, By Voltage Rating, By Application By End-User, By Region, Opportunities and Forecast, 2017-2031F |
全球三相电力电容器市场规模将从2023年的35.1亿美元增加至2031年的51.3亿美元,预计2024-2031年的复合年增长率为4.85%。 三相电力电容器的优点包括其在功率因数校正和无功功率补偿中的重要作用,从而提高电力系统的效率和稳定性。 不断增长的电力需求、智慧控制器、能源效率法规和技术进步是三相电力电容器市场成长的主要驱动力。 此外,亚太和拉丁美洲等新兴经济体透过快速工业化和增加基础设施发展投资,为市场成长做出了贡献。 三相电力电容器的智慧控制器主动监控和控制电容器的性能,以确保最佳的功率因数校正。 它们最大限度地减少电容器元件的压力,实现动态补偿的快速响应,减少谐波失真,并通过准确地确定电容器元件的优先级和驱动电容器元件来提高系统效率。让我来做。 这些先进功能有助于提高电力系统的可靠性、效率并降低能源成本。
例如,2022年9月,根据电力电子新闻报道,Pulsiv OSMIUM MCU被认为是最好的智慧控制器之一,其主要目的是提供高功率因数,同时在整个负载范围内保持高可用性因数。 在简单的 PFC 控制器中,开关电流会透过串联电感器发送,并透过感测电压和电流的相位变化来整流功率因数。
透过三相电力电容器提高功率因数极大地推动了市场成长率。 这些电容器透过提高配电效率、校正干扰以及解决低功率因数、谐波、突波和涟波等电力问题,有助于减少变电站和配电线路的能量损失。 此外,市场成长的推动因素是领导企业越来越多地采用策略,以及由于物联网和智慧技术的采用而对功率因数校正系统的需求不断增加。
2023 年 1 月,TDK 公司推出 TDK-Lambda 品牌 PF1500B-360 Hallbrick 功率因数校正 AC-DC 模组。 此模组的额定功率为 1,512W,输入电压范围为 170-265V,可产生功率因数为 0.98 的非隔离稳压 360Vdc 输出。 PF1500B-360适用于在分散式电源架构拓扑中使用隔离式DC-DC转换器的高压电源系统以及需要高压电源的负载。
利用电力技术在三相电力电容器中进行降压将放大三相电力电容器的市场成长。 这一成长的主要驱动力包括不断增长的电力需求、能源效率法规和技术进步。
例如,2022年3月,ROHM发布了一种新的电源技术“QuiCur”,该技术可改善DC/DC转换器IC和LDO的负载瞬态响应(LTR)特性。 随着DC/DC转换器IC和LDO的输出容量增加,输出电压变得更稳定,但快速反应性能逐渐下降。 QuiCur 可以线性调节输出电容和输出电压波动,因为即使输出电容增加,瞬时响应性能也保持恆定。 结果,可以显着抑制输出电压的波动。在重载运作中引入三相电力电容器为市场创造了许多机会。 对三相电力电容器的需求是由其在中压网路中的功率因数校正和无功功率补偿中的使用所驱动的。 GE、WEG 和 Hitachi Energy 提供的电容器设计用于在恶劣条件下运行,提供可靠的性能并有助于提高电力系统的效率和稳定性。
本报告研究分析了全球三相电力电容器市场,提供市场规模和预测、市场动态以及主要公司趋势和前景。
Three phase power capacitors market is projected to witness a CAGR of 4.85% during the forecast period 2024-2031, growing from USD 3.51 billion in 2023 to USD 5.13 billion in 2031. The benefits of three-phase capacitors include their essential role in power factor correction and reactive power compensation, leading to improved power system efficiency and stability. The increasing demand for electricity, intelligent controllers, energy efficiency regulations, and technological advancements are the significant factors driving the growth of the three-phase capacitor market. Moreover, emerging economies in regions like Asia-Pacific and Latin America contribute to market growth through rapid industrialization and increased investments in infrastructure development. Intelligent controllers in three-phase capacitors actively monitor and control the capacitor's performance, ensuring optimal power factor correction. They minimize stress on capacitor components by sequencing and engaging them precisely, enable quick response times for dynamic compensation, reduce harmonic distortion, and improve system efficiency. These advanced features contribute to increased reliability, efficiency, and reduced energy costs in power systems.
For example, in September 2022, as per the Power electronics news, Pulsiv OSMIUM MCU is considered as one of the best intelligent controllers whose major objective is to provide a high-power factor while retaining a higher efficacy rate over the whole load range. A switched current is sent via a series inductor in a simple PFC controller, and the power factor is rectified by detecting the phase change in voltage and current.
Power factor correction via the three phase capacitors is significantly driving the market growth rate. These capacitors improve distribution efficiency, correct interference, and solve power problems such as low power factor, harmonics, surge, and ripple, thereby contributing to energy loss in substations and distribution lines. Moreover, the market growth is attributed to the rising adoption of strategies by key players and the increasing demand for power factor correction systems due to the adoption of the Internet of Things (IoT) and smart technologies.
In January 2023, TDK Corporation introduced the TDK-Lambda brand PF1500B-360 whole brick power factor correction AC-DC module. The module, rated at 1512W with an input voltage range of 170 to 265V, produces a non-isolated, regulated 360Vdc output with a power factor of 0.98. The PF1500B-360 is appropriate for high voltage power systems that use isolated DC-DC converters in a distributed power architecture topology, as well as loads that require a high voltage source.
The utilization of power technology in three-phase capacitors for voltage reduction amplifies the market growth of three-phase capacitors. Key factors driving this growth include the continuously increasing demand for electricity, energy efficiency regulations, and technological advancements.
For example, in March 2022, ROHM introduced a new power supply technology known as QuiCur, that improves the load transient response (LTR) characteristics of DC/DC converter ICs & LDOs. The output voltage becomes more stable as the output capacitance increases, but the immediate reaction performance gradually degrades. Here, QuiCur allows for linear adjustment of both output capacitance and output voltage variation since the instantaneous response performance remains constant with the rise of output capacitance. This, in turn, minimizes the output voltage variations to a great extent.
The implementation of three-phase capacitors in heavy-duty operations is creating numerous opportunities in the market. The demand for these capacitors is driven by their use in power factor correction and reactive power compensation in medium-voltage networks. The capacitors, such as the ones offered by GE, WEG, and Hitachi Energy, are designed to operate in demanding conditions, providing reliable performance and contributing to improved power system efficiency and stability.
For example, in March 2023, Murata announced its plans to expand its Silicon Capacitor production by creating a new 200-mm mass production plant in Caen, France. This facility's capacitors are used in high-performance applications like implantable medical equipment, communications infrastructure, and mobile phones. The new production line is based on 200 mm wafers and focuses on the most recent PICS technology, which offers significantly improved electrical performance and is primarily aimed at the mobile handset market, offering high performance and capacitance values in compact sizes, with thickness of around 40µm.
Asia-Pacific significantly dominated the market due to the prevalence of some key factors. The region's growing popularity of EVs has increased the demand for high-voltage capacitors in the automotive industry. Additionally, the rising electricity demand in the region, driven by urbanization, industrialization, and the integration of renewable energy sources, has led to an increased need for capacitors to optimize energy efficiency. Furthermore, Asia-Pacific is home to some of the most prominent market players in the world and along with this the market has also witnessed government-funded T&D projects, further contributing to its dominance.
For example, in June 2023, Indian and Korean researchers collaborated to develop technologically advanced light-powered supercapacitors. This technology aims to replace traditional lithium-ion batteries in portable and wearable devices such smartphones, tablets, laptops, and smartwatches. Moreover, to gather visible light, this capacitor design has a stainless-steel electrode equipped with a quartz clear window. A specially prepared 'down-conversion' phosphor is placed before the quartz window to assist light-induced charging.
Favorable government initiatives are needed to boost the growth of the three phase capacitors market. The government-funded transmission and distribution projects have resumed operations, which is anticipated to increase the demand for high voltage capacitors. Moreover, the government regulations aimed at reducing energy wastage and carbon emissions via the usage of shunt capacitors thereby mitigating the transmission and distribution losses.
For example, in January 2023, MDPI presented a multilayer inverter system with three switched capacitors and a low switch count and voltage strain. The proposed architecture is designed to generate five different output voltage levels from a single isolated DC source, making it suitable for medium and low-voltage applications.
Major corporations are extensively investing in power factor corrections via the utilization of three-phase capacitors, accelerating the total industry growth. Furthermore, the market is extremely competitive, with multiple competitors contending for market dominance and investing in R&D, partnerships, and collaborations to expand their product portfolios and acquire a competitive advantage. Overall, the market for three-phase capacitors is expected to grow significantly in the coming years.
In November 2023, TDK Corporation announced the addition of the TDK-Lambda brand TPS4000-12 power supply to the current 3kW to 4kW rated TPS series 3 phase capacitors. The TPS4000 series runs from a broad range Delta or Wye 350 - 528Vac three phase input and delivers up to 2040W output power (12V @ 170A) in a 2U high box. These industrial power supplies are well suited for usage in a variety of applications such as measurement and testing equipment, semiconductor fabrication, additive manufacturing, printers, lasers, and RF power amplifiers. The HV, three-phase input eliminates the need for expensive step-down transformers and aids in phase load current balancing.
In February 2023, Vishay Intertechnology, Inc. exhibited its industry-leading power electronic components at the ELECRAMA 2023, India Expo Mart in Greater Noida, NCR, India. Vishay showcased its broad line of Vishay ESTA power electronic capacitors (PEC) and LVAC power capacitors at the event. Moreover, Vishay passive components at ELECRAMA 2023 also included ceramic and metallized polypropylene film capacitors.
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Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.