BOSTON, Oct. 5, 2023 /PRNewswire/ — IDTechEx forecast the Li-ion battery market for electric vehicles to reach US$380 billion by 2034. With this huge increase in value, the safe and reliable operation of these (sometimes combustible) assets while maximizing the performance extracted from them becomes critical. The battery management system (BMS) plays a central role in the safe and reliable operation of Li-ion batteries but is somewhat overlooked with regard to its potential for also moving battery performance forward.
Developments in battery technology often center on material and chemistry innovations, whether in the form of silicon anodes, solid-state batteries, or new Na-ion chemistries or on other hardware developments such as the use of cell-to-pack battery designs or 800V platforms. However, new materials, chemistries, and hardware often come with lengthy development and testing phases and trade-offs in performance or cost. For example, high-silicon anodes increase energy density and can improve fast charging but come at the expense of cycle life, and in the short-term, high-silicon anode solutions are likely to come at a price premium too. For more information on IDTechEx coverage of Li-ion and next-generation battery technologies, please see their energy market intelligence subscription.
In contrast, innovations to the BMS can offer feasible routes to improving multiple performance metrics simultaneously, a feat that is notoriously difficult to achieve in Li-ion battery development. Namely, improvements to energy density, fast charge capability, safety, and cycle life can be achieved with the right BMS. Ultimately, many of these improvements will be enabled through better and more accurate state estimation (state-of-charge, state-of-power, state-of-health) and a better understanding of the internal state of the Li-ion cells, in turn allowing for more optimized use of the Li-ion battery. For example, reducing charging times can be achieved by tracking the internal state of Li-ion cells by analyzing data generated by the battery during use to look for signs of lithium plating. During periods of the charge cycle where the onset of lithium plating is determined to occur, the charging current can be reduced before being increased once the risk of lithium plating has reduced, with the aim of increasing average charging power without increasing degradation.
A number of companies, such as Eatron Technologies, WAE (via their Elysia platform), and Qnovo, amongst numerous others, are developing and deploying more advanced BMS software platforms to help enhance state estimation and optimize battery operation. Indeed, there has been a hive of activity in Europe and North America from early-stage companies developing more advanced BMS technologies. Some of the advancements are starting to make their way onto the market. For example, Qnovo are looking to deploy their software in Vanderhall EVs to help improve range and charging times, while Eatron Technologies have also started to deploy their BMS software.
There are a multitude of developments happening within Li-ion battery technology. While headlines can focus on novel and next-generation battery materials, chemistries, and technologies, advancements to the BMS offers a way to maximize the performance of both today’s and tomorrow’s Li-ion technology and could, therefore, play a key role in accelerating the adoption of EVs and stationary battery storage systems. IDTechEx can help businesses understand the key technologies and trends within electric vehicle batteries. To find out more on the Li-ion market for electric vehicles, please see IDTechEx’s latest report, “Li-ion Batteries and Battery Management Systems for Electric Vehicles 2024-2034”, at www.IDTechEx.com/EVLithium.
About IDTechEx
IDTechEx guides your strategic business decisions through its Research, Subscription and Consultancy products, helping you profit from emerging technologies. For more information, contact research@IDTechEx.com or visit www.IDTechEx.com.
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BOSTON, Oct. 5, 2023 /PRNewswire/ — IDTechEx forecast the Li-ion battery market for electric vehicles to reach US$380 billion by 2034. With this huge increase in value, the safe and reliable operation of these (sometimes combustible) assets while maximizing the performance extracted from them becomes critical. The battery management system (BMS) plays a central role in the safe and reliable operation of Li-ion batteries but is somewhat overlooked with regard to its potential for also moving battery performance forward.
Developments in battery technology often center on material and chemistry innovations, whether in the form of silicon anodes, solid-state batteries, or new Na-ion chemistries or on other hardware developments such as the use of cell-to-pack battery designs or 800V platforms. However, new materials, chemistries, and hardware often come with lengthy development and testing phases and trade-offs in performance or cost. For example, high-silicon anodes increase energy density and can improve fast charging but come at the expense of cycle life, and in the short-term, high-silicon anode solutions are likely to come at a price premium too. For more information on IDTechEx coverage of Li-ion and next-generation battery technologies, please see their energy market intelligence subscription.
In contrast, innovations to the BMS can offer feasible routes to improving multiple performance metrics simultaneously, a feat that is notoriously difficult to achieve in Li-ion battery development. Namely, improvements to energy density, fast charge capability, safety, and cycle life can be achieved with the right BMS. Ultimately, many of these improvements will be enabled through better and more accurate state estimation (state-of-charge, state-of-power, state-of-health) and a better understanding of the internal state of the Li-ion cells, in turn allowing for more optimized use of the Li-ion battery. For example, reducing charging times can be achieved by tracking the internal state of Li-ion cells by analyzing data generated by the battery during use to look for signs of lithium plating. During periods of the charge cycle where the onset of lithium plating is determined to occur, the charging current can be reduced before being increased once the risk of lithium plating has reduced, with the aim of increasing average charging power without increasing degradation.
A number of companies, such as Eatron Technologies, WAE (via their Elysia platform), and Qnovo, amongst numerous others, are developing and deploying more advanced BMS software platforms to help enhance state estimation and optimize battery operation. Indeed, there has been a hive of activity in Europe and North America from early-stage companies developing more advanced BMS technologies. Some of the advancements are starting to make their way onto the market. For example, Qnovo are looking to deploy their software in Vanderhall EVs to help improve range and charging times, while Eatron Technologies have also started to deploy their BMS software.
There are a multitude of developments happening within Li-ion battery technology. While headlines can focus on novel and next-generation battery materials, chemistries, and technologies, advancements to the BMS offers a way to maximize the performance of both today’s and tomorrow’s Li-ion technology and could, therefore, play a key role in accelerating the adoption of EVs and stationary battery storage systems. IDTechEx can help businesses understand the key technologies and trends within electric vehicle batteries. To find out more on the Li-ion market for electric vehicles, please see IDTechEx’s latest report, “Li-ion Batteries and Battery Management Systems for Electric Vehicles 2024-2034”, at www.IDTechEx.com/EVLithium.
About IDTechEx
IDTechEx guides your strategic business decisions through its Research, Subscription and Consultancy products, helping you profit from emerging technologies. For more information, contact research@IDTechEx.com or visit www.IDTechEx.com.
Images download:
https://www.dropbox.com/scl/fo/pq6non7gdfyp159monppx/h?rlkey=ivo0tali9vts53ac1vskk2bv2&dl=0
Media Contact:
Lucy Rogers
Sales and Marketing Administrator
press@IDTechEx.com
+44(0)1223 812300
Social Media Links:
Twitter: www.twitter.com/IDTechEx
LinkedIn: www.linkedin.com/company/IDTechEx
Photo – https://mma.prnewswire.com/media/2238521/Battery_management_system.jpg
Logo – https://mma.prnewswire.com/media/478371/IDTechEx_Logo.jpg
View original content:https://www.prnewswire.co.uk/news-releases/idtechex-look-at-how-battery-management-system-bms-innovation-will-lead-to-better-batteries-301947140.html