市場調査レポート
商品コード
1238794
EV試験装置の世界市場-産業規模、シェア、動向、競合、機会、予測(2018-2028年)、車両タイプ、推進タイプ(バッテリー/ハイブリッド/プラグインハイブリッド電気自動車)、ソーシングタイプ、地域別分析EV Test Equipment Market- Global Industry Size, Share, Trends, Competition, Opportunity, & Forecast, 2018-2028 Segmented By Equipment, Vehicle Type, Propulsion Type (Battery/Hybrid/Plug-in Hybrid Electric Vehicle), Sourcing type, Region |
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EV試験装置の世界市場-産業規模、シェア、動向、競合、機会、予測(2018-2028年)、車両タイプ、推進タイプ(バッテリー/ハイブリッド/プラグインハイブリッド電気自動車)、ソーシングタイプ、地域別分析 |
出版日: 2023年03月01日
発行: TechSci Research
ページ情報: 英文 232 Pages
納期: 2~3営業日
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EV試験装置の世界市場は、予測期間中に12.22%のCAGRを記録し、2028年には5億2,316万米ドルに達すると予測されています。
電気自動車を短期間で製造する必要性に対する意識の高まりと、車両試験の増加が、予測期間中の電気自動車試験装置の世界市場の成長を促進すると予想されます。EV試験装置は、電気自動車の性能を維持するために、モーター、バッテリー、パワートレイン、ドライブトレインなど、電気自動車のさまざまなコンポーネントを検査するために使用されます。
2021年5月-台湾の有名な電気自動車(EV)用電源メーカーが、ISO規格のプロセスを改善し、DC-DCコンバータのパワーレベルHILテストを実施するために、Chroma 8620テストベッドを採用しました。このテストベッドは、台湾の規格によるDC-DCコンバータの定常および異常な機能、故障モードに関する厳格なテストを実施します。
燃料価格の上昇は自動車産業に悪影響を及ぼすため、自動車産業はより電気自動車に力を入れ始めています。原油価格は過去12ヶ月間で70%以上上昇し、ブレント原油1バレルあたり45米ドルから80米ドル近くまで上昇しました。原油価格の平均は1バレルあたり約62.26米ドル近く下がり、今後は1バレルあたり約60.74米ドルになると予想されます。原油価格の上昇の背景には、輸出入税が増加していることがあります。そのため、燃料を必要としない電気自動車を選ぶ人が増えており、電気自動車は内燃機関に比べて維持費が安いです。
ここ数年、自動車メーカーが電気自動車の開発・設計に積極的に投資しており、それがモビリティや交通手段の変化につながっていることが見て取れます。さらに、EV充電ステーションの進歩、試験装置の技術向上、車載診断ツールの需要増が、この装置の需要を高めています。自律走行車やコネクテッドカーなどの分野での技術の進歩により、その修理やメンテナンスには高精度に校正された高度なシステムの使用が必要となっています。そのため、電気自動車試験装置とシステムの開拓は、市場成長の道を開く広い行動範囲を提供します。
EV検査装置の操作には熟練した労働力と専門知識が必要であり、有望な可能性を示しているにもかかわらず、専門知識の不足や膨大な技術コストなど、多くの課題を抱えていることが市場を抑制しています。熟練工と業界の要求との間に需給ギャップがあり、材料の選択と関連性のない設定の複雑さが、市場の成長を阻害する大きな要因となっています。そのため、多くの産業で電気自動車試験装置の需要が阻害されています。
先進的な電気自動車試験装置のコストが高く、その開発のための標準的なプロトコルがないことが、市場の成長を制限する重大な要因となっています。市場が小さいため、電気自動車試験装置の製造・開発に関する標準的な規定が存在しないです。さらに、メーカーやツール開発者の数が減少しているため、コストが高くなり、成長を制限しています。ベンダーやツール開発者の存在感が高まり、市場競争力が高まるまでは、試験装置のコストは高止まりします。その結果、アプリケーションの複雑化とそれに伴う個々のテスト機器のコストが、市場の成長を阻害する可能性があります。
与えられた市場データをもとに、TechSci Researchは企業の特定のニーズに応じてカスタマイズを提供します。本レポートでは、以下のカスタマイズが可能です。
Global Electric Vehicle Test Equipment market is anticipated to register a CAGR of 12.22% during the forecast period to reach USD 523.16 million by 2028. Rising awareness toward the need to manufacture electric vehicles within a short period and increasing vehicle testing are expected to drive the growth of the global Electric Vehicle Test Equipment market during the forecast period. The electric vehicle test equipment is used to inspect different components of electric vehicles such as motors, batteries, powertrain, drivetrain, and many other components of an electric vehicle to maintain the performance of the vehicle.
May 2021 - A well-known Taiwanese manufacturer of power supplies for electric vehicles (EV) has adopted Chroma 8620 testbeds to improve their ISO standard process and conduct power-level HIL testing on DC-DC converters. The testbed conducts rigorous testing on the regular and abnormal functionalities and failure modes of the DC-DC converters by Taiwanese standards.
Due to the implementation of the lockdown to prevent the spread of the COVID-19 pandemic, sales of electric vehicle test equipment at the end of the first and second quarters fell substantially in most of the countries affecting the current year's performance. Nevertheless, in most of the regions across the globe, the market showed a recovery by the end of the second quarter and recovered substantially in the third quarter. Hence, giving a positive outlook to the market forecast for the year 2028.
Rising fuel prices have a negative impact on the automobile industry, so the automotive industry has started focusing more on electric vehicles. the price of crude oil increased by more than 70% over the last 12 months, from USD 45 per barrel of Brent to nearly USD 80. The average price of crude oil has reduced nearly by about USD 62.26 per barrel and it is expected that the price of crude oil will reach around USD 60.74 per barrel. The reason behind the rising price of crude oil is increasing import and export taxes. Owing to this, more people are now opting for electric vehicles in which there is no need for fuel and electric vehicles have low maintenance costs as compared to the internal combustion engine.
In the past few years, it has been seen that automobile manufacturers are progressively investing in the development and design of electric vehicles which is leading to mobility and transportation changes. Furthermore, advancement in EV charging stations, technological enhancement in test equipment, and rising demand for onboard diagnostic tools is increasing the demand for this equipment. The advancement of technology in areas such as autonomous and connected vehicles necessitates the use of highly precise calibrated and advanced systems for their repair and maintenance. So, the development of electric vehicle test equipment and systems provides a broad scope of action that paves the way for market growth.
The requirement of skilled labor and expertise to operate EV testing equipment is restraining the market; despite demonstrating promising possibilities, the market still witnesses many challenges, such as a lack of expertise and tremendous technology costs. Since there is a demand-supply gap between skilled laborers and industry requirements and complexities in material selection and irrelevant settings are major factors cutting down the market growth. Thereby, disturbing the demand for electric vehicle testing equipment across many industries.
The high cost of advanced EV test devices and the lack of a standard protocol for their development are critical factors limiting the market growth. As the market is small, there is no standard set of regulations for the manufacture and development of Electric Vehicle Test Equipment. In addition, the number of manufacturers and tool developers is decreasing, making it more expensive and limiting its growth. The cost of testing equipment will remain high until the increasing presence of vendors and equipment developers makes the market competitive. As a result, the increasing complexity of the application and the associated cost of individual testing equipment may stifle market growth.
The electric vehicle testing equipment market is segmented based on vehicle, equipment, propulsion, sourcing, and region. Based on vehicle type, the market is further bifurcated into passenger cars and commercial vehicles. Based on equipment, the market is further segmented into battery test equipment, motor test equipment, chassis dynamometer, transmission dynamometer, inverter test equipment, and onboard charger test equipment. Based on propulsion type, the market is further segmented into battery electric vehicles (BEV) & hybrid electric vehicles (HEV), and plugin hybrid electric vehicles (PHEV). Based on sourcing, the market is further segmented into in-house and outsourcing. Based on region, the market is further divided into North America, Europe, Asia-Pacific, South America, and Middle East & Africa.
Chroma ATE Inc., Horiba Ltd., TUV RHEINLAND Group, Schneider Electric SE, Intertek Group Plc, Durr Group, ZF Friedrichshafen AG, AVL List GmbH, FEV GROUP, and ABB Ltd., are developing advanced technologies to stay competitive in the market and enhancing their product portfolio in various regions to increase their customer outreach. Moreover, these are among the major players that are driving the growth of the global electric vehicle test equipment market.
In this report, global Electric Vehicle Test Equipment market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:
Company Profiles: Detailed analysis of the major companies present in global Electric Vehicle Test 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: