市場調查報告書
商品編碼
1324214
到 2030 年直流電磁接觸器的市場預測:按類型、用途、最終用戶和地區進行的全球分析Direct Current Contactor Market Forecasts to 2030 - Global Analysis By Type, Application, End User and By Geography |
根據 Stratistics MRC 的數據,2023 年全球直流電磁接觸器市場規模為 4.456 億美元,預計在預測期內將以 11.4% 的年複合成長率成長,到 2030 年達到 9.489 億美元。
直流電磁接觸器調節流向電機和其他機器等負擔的電流。它們的功能與交流電磁接觸器相同,但專門設計用於直流電源系統。線圈和電磁接觸器本身是直流電磁接觸器的兩個主要部件。開關機構是電磁接觸器的一部分。電磁接觸器由線圈接通。銅和銀等金屬合金通常用於電磁接觸器。它可以承受高電壓和電流。線圈是通過將電線纏繞在磁芯上而製成的。
根據聯合國報告,世界上55%的人口居住在都市區,預計到2050年這一數位將增加68%。
由於燃料成本急劇上升和政府補貼,對電動汽車和混合動力汽車的需求正在增加。世界各國政府都在鼓勵電動交通,以減少對原油的依賴並減少車輛污染。這些電磁接觸器用於電動汽車和混合動力汽車,將高電壓電池與高電壓電網隔離。世界各國政府都在鼓勵電動交通,以減少對原油的依賴並減少車輛污染。為了幫助擴大市場,許多汽車製造商開始生產電動車和混合動力汽車。
隨著消費者轉向繼電器和螺線管等更便宜的替代品,直流電磁接觸器的高成本阻礙了直流電磁接觸器市場的擴張。此外,射手需要一個更靠近中心的位置。相比之下,磁鐵和繼電器更便宜,也更容易從供應商處獲得。此外,如果零件不在一定時間內維護,可能會導致系統故障或重複故障,這可能對系統有害。
由於消費者對舒適度的需求不斷增加,暖通空調系統的安裝更加頻繁。為了滿足消費者的需求,許多公司正在創造具有各種好處的產品。 HVAC 系統還會向客戶發出系統故障、維護計劃和奇怪行為的警報,從而降低維修成本。快速的氣候變化也推動了商業和住宅領域暖通空調系統的發展。直流電磁接觸器主要用於HVAC系統中以調節提供給負擔的電壓,因此HVAC系統的擴展刺激了這些設備的發展。在用於可再生能源發電的高壓輸電線路中添加逆變器以及可以在停電期間連接到發電機以降低故障風險的變電站是影響全球市場發展的主要要素。
直流電磁接觸器必須在一定時間內更換,因為老化的繼電器會導致灰塵問題並導致系統故障。然而,主要製造商正在製定降低這些風險的策略。例如,松下推出了EV-A系列汽車繼電器,適用於電動車、直流充電站、混合動力施工機械等高電壓用途。
市場擴張受到新冠疫情爆發的限制。疫情期間,市場拓展受到政府嚴格監管的法規。一些工業項目的暫停或永久關閉阻礙了這些射手的發展。 2020年全球電動車銷量也是一出兩幕劇。一方面,2020 年的封鎖程序不僅凍結了消費者需求,還凍結了製造設施和供應鏈。隨著2020年初疫情開始加劇,人們普遍預計電動汽車市場佔有率將比重型汽車行業更具彈性。
通用直流電磁接觸器領域由於廣泛應用於暖通空調領域,預計將出現良好的成長。電機、電源開關、過程自動化和電壓波動保護等最終用戶都需要通用直流電磁接觸器。然而,由於其易於使用和易於兼容,承包也經歷了顯著的市場成長。通常,通用電磁接觸器用於直接調節電路內的電流。
由於對低碳排放的需求不斷成長,預計電動車領域在預測期內將出現最高的年複合成長率,電動車細分市場將主導全球市場趨勢。電動車不直接排放碳,因此對環境的破壞比內燃機汽車小。它們也很便宜且易於駕駛。因此,隨著電動汽車的需求增加,對接觸器的需求也在增加。
由於其高度工業化和商業化,預計亞太地區在預測期內將在全球直流電磁接觸器市場中佔據最大佔有率。此外,市場擴張的關鍵要素之一是新興市場的都市化不斷提高以及對可再生能源的承諾不斷增加。
在預測期內,由於廣泛的發展舉措,歐洲預計將出現最高的年複合成長率。大規模的工業和商業活動增加了該地區的用電量,使承包能夠控製或關閉電力。此外,許多世界領先的汽車製造商已遷至該地區,支持電動汽車和混合動力汽車的使用,包括寶馬、戴姆勒、德爾福、大眾集團、福特、現代和雷諾。
According to Stratistics MRC, the Global Direct Current (DC) Contactor Market is accounted for $445.6 million in 2023 and is expected to reach $948.9 million by 2030 growing at a CAGR of 11.4% during the forecast period. Direct current (DC) contactors regulate the flow of electricity to loads like motors and other machinery. While functionally identical to AC contactors, they are created expressly to operate with DC power systems. The coil and the contactor itself are the two major components of a DC contactor. The switching mechanism is part of the contactor. The contactor is turned on by the coil. Typically, a metal alloy, such copper or silver, is used to create the contactor. It is built to withstand the high voltages and currents. The coil is constructed by wrapping a wire around a core.
According to the United Nations report, 55% of the world's population lives in urban areas, which is likely to increase to a 68% growth rate by 2050. In addition, rapid urbanization also encourages the growth of these protectors.
Due to the rising fuel costs and government subsidies, there is a growing demand for EVs and HEVs. To lessen their reliance on crude oil and cut down on automobile pollution, governments around the world are encouraging electric transportation. To disconnect the high-voltage battery from the high-voltage grid, such contactors are employed in EVs or HEVs. To lessen their reliance on crude oil and cut down on automobile pollution, governments around the world are encouraging electric transportation. In order to aid in the market's expansion, numerous automakers have begun producing electric or hybrid electric vehicles.
The expansion of the DC contactor market is being hampered by consumers switching to cheaper alternatives like relays and solenoids due to the high cost of these contactors. The shooters also required a spot that was closer to the center. In contrast, magnets and relays are less expensive and are more readily available than contractors. And also, if a component's maintenance is not done within a particular time limit, it may result in system failure or repeated failures, which may harm the system.
HVAC systems are being installed more frequently as a result of consumers' growing need for comfort. In order to satisfy consumer demand, numerous businesses are creating items that offer a variety of advantages. The HVAC system also warns customers about system faults, maintenance schedules, and odd behavior to cut down on repair expenses. The development of HVAC systems in commercial and residential sectors is also being fueled by abrupt climate change. Since DC contactors are primarily employed in HVAC systems to regulate the voltage provided to the loads, the expanding HVAC system stimulates the development of these devices. High voltage transmission lines for renewable energy sources and reducing failure risk by making more inverters available in substations that allow connecting to a generator during a power outage are the main factors influencing worldwide market developments.
As relay aging leads to dust issues and might cause system failure, the DC contactor needs to be replaced within a particular time frame. Leading manufacturers are, however, working on strategies to lessen these dangers. For example, Panasonic introduced EV-A Series Automotive Relay, suitable for usage in electric vehicles, DC Charging Stations, and other high-voltage DC applications such as Hybrid Construction Equipment.
The market's expansion has been limited by the COVID outbreak. During the epidemic, market expansion was constrained by stringent government regulations. The development of these shooters has been hampered by the suspension or permanent closure of certain industrial projects. The global sales of electric vehicles in 2020 are also a two-act play. Lockdown procedures in 2020 froze consumer demand as well as manufacturing facilities and supply chains on the one hand. It was widely anticipated that EV market share would likely be more resilient than the larger vehicle sector as the pandemic started to intensify in early 2020.
The general purpose DC contactors segment is estimated to have a lucrative growth, due to because of their widespread use in the HVAC sector. The end users of motors, power switching, process automation, and voltage fluctuation prevention all require general-purpose DC contactors. However, due to their ease of use and simple interchangeability, contractors with definite purposes are also experiencing tremendous market growth. Generally speaking, general-purpose contactors are used to regulate direct power flow in a circuit.
The electric vehicles segment is anticipated to witness the highest CAGR growth during the forecast period due to growing demand for low carbon emissions, the electric vehicle market segment has dominated the global market trend. Since electric vehicles don't directly emit carbon, they are less damaging to the environment than cars with internal combustion engines. They are also less expensive and more affordable to operate. These factors indicate that the need for these contactors is rising along with the demand for EVs.
Asia Pacific is projected to hold the largest market share during the forecast period owing to region's growing industrialization and commercialization, Asia Pacific will continue to have the largest global market share for DC contactors during the projection period. Furthermore, one of the key drivers of market expansion is the growing urbanization of developing nations and the rising uptake of renewable energy initiatives.
Europe is projected to have the highest CAGR over the forecast period; owing to extensive development initiatives. Large-scale industrial and commercial operations increase the area's electricity usage, and contractors have the ability to control or shut off the electricity. In addition, many of the leading automakers in the world, including BMW, Daimler, Delphi, Volkswagen Group, Ford, Hyundai, and Renault, are relocating to the area and supporting the use of EV and HEV contractors.
Some of the key players in xx market include: Omron Corp., Rockwell Automation, ABB, Mitsubishi Electric, Ametec Switch, Hotson International Ltd., Siemens AG, Cotronics BV, Schaltbau Company, TE Connectivity, Sensata Technologies Inc., Trombetta Inc, Fujitsu Limited, Song Chaun USA, Inc, BSB Electronics, Hefei Huanxin Technology Ltd and Littelfuse
In April 2023, Littelfuse, Inc., announced its product portfolio expansion of direct current (DC) contactors majorly for industrial applications. The company aims to provide more flexibility for developing high-powered EVs.
In February 2023, Mitsubishi Electric Corporation announced that on February 16, it entered into a stock transfer agreement to acquire 100% of Scibreak AB, a Sweden-based company that develops direct current circuit breakers (DCCBs).
In December 2022, ABB announced that it had signed an agreement to purchase Siemens' low-voltage NEMA motor business. This acquisition brings a respected product portfolio with manufacturing operations in Mexico.