市場調查報告書
商品編碼
1456898
電池管理 IC 市場 - 2024 年至 2029 年預測Battery Management IC Market - Forecasts from 2024 to 2029 |
電池管理 IC 市場預計將以 4.43% 的複合年成長率成長,從 2022 年的 24.56 億美元增至 2029 年的 33.27 億美元。
電池管理IC是一種管理和監控各種電池的放電和充電能力的電子裝置。常用於電動車、可再生能源儲存系統和攜帶式電子設備等應用。電池管理IC的主要功能是利用感測器、微控制器和其他電子元件來監控電池的電壓、溫度和電流,並控制電池的充電和放電過程,以確保電池安全且有效率地運作。電池管理 IC 在消費性電子、汽車、通訊和工業等各個領域都有很高的需求,因為它們可以確保電池在各種應用中安全且有效率地運作。此外,為電池管理IC添加先進的監控和保護功能可以最佳化電池性能並延長電池壽命,降低成本並提高客戶滿意度,從而刺激市場需求。
市場驅動力
由於電池管理IC在電池儲存系統(BSS)中發揮重要作用,對電池儲存系統的需求不斷增加,導致電池管理IC的消耗不斷增加。 BSS中使用電池管理IC來安全、有效率地監控和控制電池充電和放電,有助於防止過度充電和過度放電,從而延長電池壽命。此外,電池管理 IC 還提供電池性能的即時資料,使操作員能夠最佳化 BSS 操作並在潛在問題變得嚴重之前識別它們。由於可再生能源部署的增加和電網穩定的需要,對 BSS 的需求不斷增加,這推動了滿足 BSS 需求的新型電池管理 IC 的推出。例如,Maxim Integrated 於 2021 年 2 月推出了 MAX17852,這是一款電池管理 IC,旨在用於能夠支援多達 14 節電池的大規模 BSS。
由於電池管理IC是電動車中安裝的電池管理系統(BMS)的關鍵組成部分,特斯拉等領先企業的電動車消費量和產量的增加正在推動電池管理IC市場的需求。 BMS 負責監控和控制電動車電池的健康狀況、性能和安全性。國際能源總署預測,美國電池電動車銷量將從2017年的104,000輛增加到2021年的466,000輛,而在歐洲,電池電動車銷量將從2017年的139,000輛增加。年增加到466,000輛。此外,領先的汽車公司正在擴大其電動車產品範圍,預計這將在預測期內進一步推動電池管理 IC 市場的成長。例如,BMW在2023年3月宣布,將在2025年終前推出六款新的純電動車型。
按行業分類,通訊業預計在預測期內將大幅成長。
在通訊業,電池管理IC用於多種應用,例如穿戴式裝置和無線通訊設備。此外,高效的電池管理對於確保延長電池壽命和提高通訊設備的設備效能至關重要。無線通訊的快速發展和 5G 網路的廣泛採用預計將增加通訊業對電池管理 IC 的消耗。
亞太地區佔據電池管理IC市場的大部分。
由於家用電器產量的增加和電動車消費的增加,韓國、中國和印度等亞洲主要國家預計將推動該地區的電池管理IC市場。根據國際能源總署(IEA)的數據,中國是最大的電動車消費國之一,2022年電動車銷量佔汽車總銷量的29%,較2021年成長13%。此外,該地區的家用電子電器製造活動正在擴大,電量計IC、電池充電器IC和認證IC在該領域已廣泛消費,進一步刺激了市場成長。電量計 IC 用於測量和報告剩餘電池電量,電池充電器 IC 用於管理電池充電。此外,認證 IC 用於驗證電池和其他組件的真實性。
The battery management IC market is projected to grow at a CAGR of 4.43% to reach US$3.327 billion in 2029 from US$2.456 billion in 2022.
A battery management IC is an electronic device that manages and monitors the discharge and charging abilities of various batteries. It is commonly used in applications such as electric vehicles, renewable energy storage systems, and portable electronic devices. The primary function of a battery management IC is to ensure the safe and efficient operation of the battery by controlling its charging and discharging processes through the collective use of sensors, microcontrollers, and other electronic components to monitor the battery's voltage, temperature, and current. The ability of battery management ICs to ensure the safe and efficient operation of batteries in a wide range of applications is increasing its demand across various sectors such as consumer electronics, automotive, communication, and industrial areas. Further, the addition of advanced monitoring and protection features to battery management ICs to aid in the optimization of the performance of batteries and extend their lifespan is stimulating the demand for the market by resulting in cost savings and improved customer satisfaction.
Market Drivers
The growing demand for battery storage systems is increasing the consumption of battery management ICs as battery management ICs play an important role in battery storage systems (BSS). Battery management ICs are used in BSS to monitor and control the charging and discharging of batteries safely and efficiently which aids in the extension of the lifespan of batteries by preventing overcharging or over-discharging. In addition, battery management ICs provide real-time data on battery performance, allowing operators to optimize the operation of the BSS and identify potential issues before they become serious problems. The rising demand for BSS driven by the increasing adoption of renewable energy and the need for grid stabilization is promoting the launch of new battery management ICs to cater to the needs of BSS. For instance, Maxim Integrated launched MAX17852, a battery management IC intended to be used in large-scale BSS due to its ability to support up to 14 cells in February 2021.
The increase in consumption of EVs and the production of EVs by major companies such as Tesla is driving the demand for the battery management IC market as battery management ICs are a critical component of the battery management systems (BMS) installed in EVs. The BMS is responsible for monitoring and controlling the health, performance, and safety of EV batteries as EVs rely on large battery packs to power their operations. The International Energy Agency revealed that the sales of battery EVs in the US increased from 104,000 in 2017 to 466,000 in 2021 whereas the European region witnessed an increase in its battery EV sales from 139,000 in 2017 to 1,231,000 in 2021. In addition, leading automotive companies are expanding their EV product offerings which are further anticipated to drive the growth of the battery management IC market over the forecast period. For instance, in March 2023, BMW company declared that it will be introducing six new battery EV models by the end of 2025.
By industry vertical, the communication sector is anticipated to grow prominently over the forecast period.
In the communication industry, battery management ICs are used in various applications such as wearables and wireless communication devices since these devices rely on batteries to power their operations. In addition, efficient battery management is crucial to ensure longer battery life and better device performance of communication devices. The rapid advancements in wireless communication and the increasing adoption of 5G networks are expected to result in the growth of the consumption of battery management ICs by the communication industry.
Asia Pacific region holds a significant portion of the battery management IC market.
The growing production of consumer electronics and the increasing consumption of EVs in major Asian economies such as South Korea, China, and India is expected to drive the battery management IC market in the region. According to the International Energy Agency, China is one of the largest EV-consuming vehicles and in 2022, the share of EV sales in total vehicle sales stood at 29% which represented a 13% increase from 2021. In addition, the expansion of consumer electronics production activities in the region is further stimulating market growth as fuel gauge ICs, battery charger ICs, and authentication ICs are extensively consumed by this sector. A fuel gauge IC is used to measure and report the remaining capacity of a battery whereas a battery charger IC is used to manage the charging of a battery. Further, authentication ICs are employed to verify the authenticity of a battery or other component.
Key Developments