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汽車零件電池

市場調查報告書

商品編碼

1456963

全球電池感測器市場 - 2024 年至 2029 年預測

Global Battery Sensor Market - Forecasts from 2024 to 2029

出版日期: 2024年02月02日 | 出版商:

Knowledge Sourcing Intelligence | 英文 115 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

2022年電池感測器市場規模為40.01億美元，複合年成長率為11.82%，2029年市場規模將達87.44億美元。

汽車能量管理系統的重要組成部分是電池感測器。透過測量溫度和充電電壓，感測器向汽車通報準確的電池狀態。電池感測器可監控影響電池壽命的各種因素，例如電流、電壓和溫度，而不會干擾資料處理。推動這些感測器需求的其他因素包括電動車市場的擴張以及對工業能源儲存解決方案的快速成長的需求。隨著世界各地廢氣法規變得更加嚴格，汽車製造商擴大採用電氣和電子元件。豪華汽車銷售的擴大也推動了電池感測器市場的成長。據預測，到 2030 年，道路上的電動小客車保有量將超過 2 億輛，較 2016 年的略高於 200 萬輛快速成長。隨著電動車普及，對電池感測器的需求也不斷增加。（圖片來源：irena.org）

電池感測器可以根據需要準確測量電流、電壓和溫度。有了這些資訊，您可以準確評估電氣系統的運作狀況和電量，以確保最佳性能。除了電池監控外，它還可以檢測車內故障的電子元件。現代汽車中先進技術的採用預計將推動對電池感測器不斷成長的需求。

市場促進因素：

電動車銷量增加

隨著最新汽車採用尖端技術，對電池感測器的需求也不斷擴大。動力來源車輛的主要設計目的是取代對環境有害的傳統交通方式。由於技術進步，電動車變得越來越普及。相比之下，電動車效率更高，排放氣體和維護成本更低，更容易在家充電，駕駛更平穩，引擎噪音更小。此外，電動車不需要換油，但其成本比同類汽油車稍高。到 2030 年，兩輪、三輪和四輪電動車的普及達到 9 億輛，數量可能超過四輪汽車。（資料來源：irena.org）。中國工業和資訊化部 (MIIT) 預計，到 2025 年，新能源汽車，主要是電動車 (EV)，將佔所有汽車銷量的 25%。此外，印度政府計劃在2030年將30%的汽車實現電動化。（資料來源：macropolo.org；investindia.gov）

作為包括電動車和電池工廠的投資計畫的一部分，特斯拉 (TSLA) 宣布將投資最多 120 億美元。此外，梅賽德斯-賓士製造商戴姆勒計劃在2030年投資超過400億歐元（470億美元），以在電動車市場與特斯拉競爭。對電動車的巨額投資將繼續推動對電池感測器的需求。

增加可再生能源儲存系統的採用。

推動電池感測器市場的關鍵因素之一是可再生能源儲存系統利用率的持續提高。能源儲存系統對於儲存和控制太陽能和風能等再生能源來源日益整合所產生的間歇性電力至關重要。電池感測器在這些儲能系統中至關重要，可監控溫度、電壓和充電等級等重要指標。透過此即時監控確保電池效率，提高效能並延長電池壽命。對永續和清潔能源解決方案的需求不斷增加，電池感測器對於保持能源儲存系統可靠和安全的重要性也隨之增加。

市場限制因素：

電池感測器可能會發生故障並影響車輛性能。

通常，當灰塵、濕氣或電池液進入感應器時，電池感知器就會損壞或短路。例如，在寶馬汽車中，電池位於後行李箱的側艙內，導致濕氣滲入電池並損壞感測器。 BMW稱之為智慧電池感測器（IBS）。 IBS 故障可能會導致許多電氣問題，包括無法啟動的情況。電池感測器不僅易碎，而且在維修或拆卸過程中也可能損壞。在許多車輛中，由於電池感測器故障，停止/啟動系統可能無法正常運作。因此，此類故障可能會影響汽車銷售並對電池感測器的需求產生負面影響。

北美電池感測器市場預計將大幅成長。

北美電動車（EV）產業的成長是推動該地區電池感測器市場的關鍵因素。隨著汽車產業經歷向電動的重大轉變，電池感測器已成為電動車 (EV) 的重要組成部分。對於控制和監控電池性能至關重要。在北美，由於環保意識的增強和向永續交通的轉變，電動車的使用顯著增加。透過監控溫度、電壓和充電等級等變量，電池感測器可確保電動車電池的有效和安全運作。此外，鼓勵性的政府計劃、財政獎勵和不斷擴大的電動車充電基礎設施正在推動電動車市場的成長，這也影響了該地區對複雜電池感測器技術的需求。

主要進展：

2023年11月，全球大型公司的創新安全解決方案供應商United Safety & Survivability Corporation宣布推出鋰離子電池故障偵測感測器。
2023年3月，全球工業氫氣檢測先驅H2scan開發的HY-ALERTA 5021固態區域氫氣監測儀發表。
2022 年 5 月，大陸集團推出了電動車的電池衝擊檢測 (BID) 系統和電流感測器模組 (CSM)，擴大了感測器範圍。這兩種新穎的方法著重於維持電池參數和保護電池。

An important part of the energy management system of the vehicle is the battery sensor. By measuring the temperature and charging voltage, the sensor informs the car of the exact battery condition. Various factors that can impact the battery life including current, voltage, and temperature are monitored by a battery sensor without getting in the way of data processing. Other factors driving the demand for these sensors include the growing market for electric vehicles and the burgeoning need for industrial energy storage solutions. As emission norms worldwide become more stringent, electrical & electronic components are increasingly adopted by vehicle manufacturers. The growing sales of luxury vehicles are also boosting the battery sensor market growth. Over 200 million electric passenger cars are predicted to be on the road by 2030, a rapid increase from just over 2 million vehicles in 2016. As electric vehicles become more prevalent, there is a corresponding rise in the demand for battery sensors. (Source: irena.org)

Battery sensors can measure current, voltage, and temperature accurately and on demand. Using this information, the electrical system can be precisely rated in terms of its health and charge, ensuring the best possible performance. Apart from monitoring the battery, it is also capable of detecting defective electronic components in the automobile. Growing demand for battery sensors is expected to stem from the growing adoption of advanced technologies in modern vehicles.

MARKET DRIVERS:

Increasing sales of electric vehicles

As advanced technologies are increasingly being adopted in modern vehicles, the battery sensor demand is also expanding. Vehicles powered by electricity were designed primarily to replace conventional ways of transportation that are environmentally detrimental. Owing to technological advances, electric vehicles have become increasingly popular. By comparison, an electric vehicle is more efficient, has lower emissions and maintenance costs, is easier to charge at home, smoother to drive, and reduces noise from the engine. Additionally, electric vehicles do not require oil changes, although they cost slightly more than their equivalents powered by gasoline. By 2030, there could be 900 million electric two-, three-, and four-wheeled vehicles on the roads, more than four-wheeled cars. (Source: irena.org). By 2025, the Ministry of Industry and Information Technology (MIIT) of China predicts new energy vehicles, mostly electric vehicles (EVs), will represent 25% of all vehicle sales. Additionally, by 2030, the Indian government plans to have 30% of its vehicles electric. (Source: macropolo.org; investindia.gov)

As part of an investment program involving electric cars and battery factories, Tesla (TSLA) said it will invest up to $12 billion. Also, Mercedes-Benz maker Daimler plans to invest more than 40 billion euros ($47 billion) so it can compete with Tesla in the all-electric vehicle market by 2030. Such huge investments in electronic vehicles will continue boosting the demand for battery sensors.

Rising Adoption of Renewable Energy Storage Systems.

One of the main factors propelling the global battery sensor market is the increasing use of renewable energy storage systems. Energy storage systems are crucial for storing and controlling the intermittent electricity produced by the growing integration of renewable energy sources like solar and wind. In these storage systems, battery sensors are essential because they keep an eye on vital indicators like temperature, voltage, and charge level. Battery efficiency is ensured by this real-time monitoring, which improves performance and increases battery life. The need for sustainable and clean energy solutions is growing, and with it, so is the significance of battery sensors in preserving the dependability and security of energy storage systems.

MARKET RESTRAINTS:

Battery sensors can cause malfunction and affect the vehicle's performance.

Typically, battery sensors get damaged or shorted when dirt, moisture, or battery acid make their way into the sensor. BMW vehicles, for instance, have the battery located in the side compartment in the trunk, allowing water to leak onto the battery and damage the sensor. BMW refers to it as the Intelligent Battery Sensor or IBS. Failure of an IBS can result in many electrical problems, including no-start situations. In addition to being fragile, battery sensors can also be damaged during servicing or removal. The Stop/Start system may not function correctly due to a bad battery sensor in many vehicles. Therefore, such instances of malfunctioning can affect vehicle sales and negatively impact the demand for battery sensors.

The North American battery sensor market is anticipated to grow significantly.

The growing electric vehicle (EV) industry in North America is the main factor driving the battery sensor market in that area. Battery sensors have become essential parts of electric vehicles (EVs) as the automotive industry makes a significant transition to electrification. They are vital for controlling and monitoring battery performance. Electric car use is significantly on the rise in North America due to growing environmental consciousness and a move towards sustainable mobility. By keeping an eye on variables like temperature, voltage, and charge level, battery sensors guarantee the effective and safe operation of EV batteries. Furthermore, encouraging government programs, financial incentives, and expanding infrastructure for electric vehicle charging push the EV market's growth, which in turn influences the region's need for sophisticated battery sensor technology.

Key Developments:

In November 2023, the launch of Lithium-Ion Battery Failure Detection Sensor was announced by United Safety & Survivability Corporation, a leading global provider of innovative safety solutions. This innovative device raises the bar for the safety of electric cars in all sectors of the economy.
In March 2023, The HY-ALERTA 5021 Solid-State Area Hydrogen Monitor, developed by H2scan, a global pioneer in industrial hydrogen sensing, was introduced. It shields battery rooms from explosive hydrogen buildup and requires no maintenance for over a decade.
In May 2022, with the introduction of the Battery Impact Detection (BID) system and the Current Sensor Module (CSM) for electric cars, Continental expanded its array of sensors. The two novel approaches concentrate on maintaining battery parameters or safeguarding the battery.

Segmentation:

By Communication Protocol

By Voltage Type

By Industry Vertical

Automotive
Energy and Power
Others

By Geography

North America
USA
Canada
Others
South America
Brazil
Others
Europe
Germany
France
United Kingdom
Spain
Others
Middle East and Africa
UAE
Saudi Arabia
Israel
Others
Asia Pacific
China
India
South Korea
Taiwan
Thailand
Indonesia
Japan
Others

1. INTRODUCTION

1.1. Market Overview
1.2. Market Definition
1.3. Scope of the Study
1.4. Market Segmentation
1.5. Currency
1.6. Assumptions
1.7. Base, and Forecast Years Timeline
1.8. Key Benefits to the stakeholder

2. RESEARCH METHODOLOGY

2.1. Research Design
2.2. Research Processes

3. EXECUTIVE SUMMARY

3.1. Key Findings
3.2. CXO Perspective

4. MARKET DYNAMICS

4.1. Market Drivers
4.2. Market Restraints
4.3. Porter's Five Forces Analysis
- 4.3.1. Bargaining Power of Suppliers
- 4.3.2. Bargaining Power of Buyers
- 4.3.3. Threat of New Entrants
- 4.3.4. Threat of Substitutes
- 4.3.5. Competitive Rivalry in the Industry
4.4. Industry Value Chain Analysis
4.5. Analyst View

5. GLOBAL BATTERY SENSOR MARKET, BY COMMUNICATION PROTOCOL

5.1. Introduction
5.2. CAN
- 5.2.1. Market Trends and Opportunities
- 5.2.2. Growth Prospects
- 5.2.3. Geographic Lucrativeness
5.3. LIN
- 5.3.1. Market Trends and Opportunities
- 5.3.2. Growth Prospects
- 5.3.3. Geographic Lucrativeness

6. GLOBAL BATTERY SENSOR MARKET, BY VOLTAGE TYPE

6.1. Introduction
6.2. 12V
- 6.2.1. Market Trends and Opportunities
- 6.2.2. Growth Prospects
- 6.2.3. Geographic Lucrativeness
6.3. 24V
- 6.3.1. Market Trends and Opportunities
- 6.3.2. Growth Prospects
- 6.3.3. Geographic Lucrativeness
6.4. 48V
- 6.4.1. Market Trends and Opportunities
- 6.4.2. Growth Prospects
- 6.4.3. Geographic Lucrativeness

7. GLOBAL BATTERY SENSOR MARKET, BY INDUSTRY VERTICAL

7.1. Introduction
7.2. Automotive
- 7.2.1. Market Trends and Opportunities
- 7.2.2. Growth Prospects
- 7.2.3. Geographic Lucrativeness
7.3. Energy and Power
- 7.3.1. Market Trends and Opportunities
- 7.3.2. Growth Prospects
- 7.3.3. Geographic Lucrativeness
7.4. Others
- 7.4.1. Market Trends and Opportunities
- 7.4.2. Growth Prospects
- 7.4.3. Geographic Lucrativeness

8. GLOBAL BATTERY SENSOR MARKET, BY GEOGRAPHY

8.1. Introduction
8.2. North America
- 8.2.1. By Communication Protocol
- 8.2.2. By Voltage Type
- 8.2.3. By Industry Vertical
- 8.2.4. By Country
  - 8.2.4.1. USA
    - 8.2.4.1.1. Market Trends and Opportunities
    - 8.2.4.1.2. Growth Prospects
  - 8.2.4.2. Canada
    - 8.2.4.2.1. Market Trends and Opportunities
    - 8.2.4.2.2. Growth Prospects
  - 8.2.4.3. Mexico
    - 8.2.4.3.1. Market Trends and Opportunities
    - 8.2.4.3.2. Growth Prospects
8.3. South America
- 8.3.1. By Communication Protocol
- 8.3.2. By Voltage Type
- 8.3.3. By Industry Vertical
- 8.3.4. By Country
  - 8.3.4.1. Brazil
    - 8.3.4.1.1. Market Trends and Opportunities
    - 8.3.4.1.2. Growth Prospects
  - 8.3.4.2. Others
    - 8.3.4.2.1. Market Trends and Opportunities
    - 8.3.4.2.2. Growth Prospects
8.4. Europe
- 8.4.1. By Communication Protocol
- 8.4.2. By Voltage Type
- 8.4.3. By Industry Vertical
- 8.4.4. By Country
  - 8.4.4.1. Germany
    - 8.4.4.1.1. Market Trends and Opportunities
    - 8.4.4.1.2. Growth Prospects
  - 8.4.4.2. France
    - 8.4.4.2.1. Market Trends and Opportunities
    - 8.4.4.2.2. Growth Prospects
  - 8.4.4.3. United Kingdom
    - 8.4.4.3.1. Market Trends and Opportunities
    - 8.4.4.3.2. Growth Prospects
  - 8.4.4.4. Spain
    - 8.4.4.4.1. Market Trends and Opportunities
    - 8.4.4.4.2. Growth Prospects
  - 8.4.4.5. Others
    - 8.4.4.5.1. Market Trends and Opportunities
    - 8.4.4.5.2. Growth Prospects
8.5. Middle East and Africa
- 8.5.1. By Communication Protocol
- 8.5.2. By Voltage Type
- 8.5.3. By Industry Vertical
- 8.5.4. By Country
  - 8.5.4.1. UAE
    - 8.5.4.1.1. Market Trends and Opportunities
    - 8.5.4.1.2. Growth Prospects
  - 8.5.4.2. Saudi Arabia
    - 8.5.4.2.1. Market Trends and Opportunities
    - 8.5.4.2.2. Growth Prospects
  - 8.5.4.3. Israel
    - 8.5.4.3.1. Market Trends and Opportunities
    - 8.5.4.3.2. Growth Prospects
  - 8.5.4.4. Others
    - 8.5.4.4.1. Market Trends and Opportunities
    - 8.5.4.4.2. Growth Prospects
8.6. Asia Pacific
- 8.6.1. By Communication Protocol
- 8.6.2. By Voltage Type
- 8.6.3. By Industry Vertical
- 8.6.4. By Country
  - 8.6.4.1. China
    - 8.6.4.1.1. Market Trends and Opportunities
    - 8.6.4.1.2. Growth Prospects
  - 8.6.4.2. India
    - 8.6.4.2.1. Market Trends and Opportunities
    - 8.6.4.2.2. Growth Prospects
  - 8.6.4.3. South Korea
    - 8.6.4.3.1. Market Trends and Opportunities
    - 8.6.4.3.2. Growth Prospects
  - 8.6.4.4. Taiwan
    - 8.6.4.4.1. Market Trends and Opportunities
    - 8.6.4.4.2. Growth Prospects
  - 8.6.4.5. Thailand
    - 8.6.4.5.1. Market Trends and Opportunities
    - 8.6.4.5.2. Growth Prospects
  - 8.6.4.6. Indonesia
    - 8.6.4.6.1. Market Trends and Opportunities
    - 8.6.4.6.2. Growth Prospects
  - 8.6.4.7. Japan
    - 8.6.4.7.1. Market Trends and Opportunities
    - 8.6.4.7.2. Growth Prospects
  - 8.6.4.8. Others
    - 8.6.4.8.1. Market Trends and Opportunities
    - 8.6.4.8.2. Growth Prospects