现在,锂离子电池面临着最大挑战。
但并非所有的锂离子电池都是相同的。
他说:“锂离子电池技术目前还有很大的潜力。”
"There is a lot of headroom in lithium ion battery technology," he said.
设计了一种单节锂离子电池保护电路。
A single lithium-ion battery protective circuit is designed.
充电时请选用锂离子电池专用充电器。
Use the battery charger specifically for that purpose when recharging.
然而,锂离子电池的成功仍具有不确定性。
Still, the success of the lithium-ion battery is not assured.
是一家专业生产销售锂离子电池的厂家。
We are professional production and marketing of lithium-ion battery manufacturers.
本文综述锂离子电池用于海军装备的应用研究。
Research on lithium ion battery for navy equipment application is reviewed in this paper.
锂离子电池组在应用中需要对其内阻进行检测。
It was necessary to detect the internal resistance in the application of Li-ion batteries.
锂离子电池排列在汽车底部,释放更多的内部空间。
Lithium-ion batteries line the vehicle floor, further freeing up cabin space.
他说可以储存能量的锂离子电池最近已经取得进展。
He said there has been recent progress in power-storing lithium-ion batteries.
当隔板失效时,同样的短路会在锂离子电池内部发生。
In a separator failure, that same kind of short happens inside the lithium-ion battery.
近年来有关锂离子电池的研究热点之一是氧化物正极材料。
In recent years, much attention has been paid to cathode material for lithium ion battery.
这种电池技术不同与当今汽车行业中运用最广泛的锂离子电池。
This is different from the lithium-ion batteries used by most of the car industry.
另外还有一大障碍,那就是电池的大小:目前,锂离子电池仍然太大。
The other big hurdle is size: the batteries are still too big. Alok Jha
研究了极片面密度、隔膜厚度以及电解液等因素对锂离子电池高倍率放电性能的影响。
The influence factors of the high rate discharge performance of li-ion battery were studied.
研究了极片面密度、隔膜厚度以及电解液等因素对锂离子电池高倍率放电性能的影响。
The influence factors of the high rate discharge performance of li-ion battery were studied.
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