本文介绍了蓄电池充放电机理;
This article introduces the principle of battery charging and discharging .
如果没有特别说明,电池充放电间隔时间为30分钟。
If no otherwise specified, the rest time between charge and Discharge amount to 30min.
结果表明,此模型较好地反映了铅酸电池充放电动态过程。
It is shown by the results that the model reflects moderately the dynamic process of electric charging and discharging of Pb-acid battery.
如何能快速、安全、高效地对蓄电池充放电就显得尤为重要。
It is especially important that how can charge and discharge fast, safely and highly effective.
通过充放电曲线法研究无机添加剂对铅蓄电池充放电过程的影响。
The effect of inorganic additives on the charge and discharge processes in lead battery has been investigated by the charge and discharge curve method.
从硬件、软件方面完善系统对蓄电池充放电及其负载的管理和保护。
The system perfects the management and protection for the charge and discharge of storage battery also for the load and solar power supply.
该模型考虑了温度对电池参数的影响,能反映电池充放电的动态过程。
And a simulation on charging and discharging processes of battery is also conducted.
在对铅酸电池充放电特性进行分析的基础上,给出了铅酸电池充放电模型。
On the basis of analyzing the characteristics of electric charging and discharging of Pb-acid battery, the model of electric charging and discharging of Pb-acid battery is made.
上述系统主要的问题是缺乏最大功率跟踪控制和蓄电池充放电控制的统一考虑。
The main problem in the existing system is that maximum power control is separate from charging and discharging control.
电池有一个内置微处理器,它通过电池充放电的过程来提供电池内电量的估计值。
The battery has an internal microprocessor that provides an estimate of the amount of energy in the battery as it charges and discharges.
在给定的道路循环下,考虑电池充放电平衡和发动机燃油经济性,提出了一种模糊逻辑控制策略。
Considering the batteries charge-discharge balance and the engine fuel efficiency under the given driving cycle, it is presented the control strategy using fuzzy logic.
本文研究了正极不同压实密度对电池性能的影响。利用电池充放电设备,内阻仪等测量电池性能。
Applied battery charge-discharge instruments and inner resistance instruments positive electrode properties were investigated at different density.
介绍了一种新型蓄电池充放电装置的系统结构和工作原理,并对其控制方法和控制电路进行了研究。
The system configure and operation principle of the novel storage battery charged and discharged device were introduced, and its control method and circuit were gived.
介绍了一种基于TMS320LF2407DSP、智能PI控制的新型蓄电池充放电电源的设计方法。
The paper presents a new design method based on TMS320LF2407DSP and intelligent PI control for charging and discharging power supply.
针对电池检测系统中对电池充放电电流高精度的要求,论述了卡尔曼滤波算法在电池检测系统中的应用。
Based on the demand of high accurate current of battery charging and discharging in battery testing system, this paper discussed the application of Kalman filtering arithmetic in it.
蓄电池在国民生产各部门应用越来越广泛,如何能快速、安全、高效地各蓄电池充放电就变得更为重要。
With the more and more wildly use of storage battery in every field of nation, how to charge the battery quickly, safely and efficiently become very important.
为此本文针对实际需求,对PWM蓄电池充放电系统进行研究,设计了一种高效、高功率、节能的蓄电池充放电系统。
So, high frequency, high efficiency and small volume. A high-efficiency, high-power and energy-saving PWM storage battery charge and discharge system is presented in this paper.
基于双向变流器技术的蓄电池充放电装置具有充电和放电功能,同时实现了网侧电流正弦化及单位功率因数,因而减少了对电网的谐波和无功污染。
The device for battery charge or discharge based on the technology of bidirectional converter can be used in charging or discharging battery, and realize sine wave of ac and unity power factor.
他补充说,比起传统电池,这种材料充放电的速度更快,并且由于少了化学转换过程,它的寿命会更长。
The material charges and discharges electricity quicker than a conventional battery, and does not use chemical processes - giving it a longer lifespan, he added.
这还不包含相关的零部件,如将电池片温度维持在可接受范围内和管理充放电的系统。
And that does not count related parts like the system that maintains the temperature of the cells within an acceptable range and manages the charging and discharging.
他说,这种新电池可以在充放电2000次以后,仍保持百分之九十的存储容量(传统的可充电电池在充放电500次后会损失大约三分之一存储容量)。
He says that the startup's battery keeps 90 percent of its storage capacity after 2,000 charges (traditional rechargeable batteries lose nearly a third of their capacity after about 500charges).
他说,这种新电池可以在充放电2000次以后,仍保持百分之九十的存储容量(传统的可充电电池在充放电500次后会损失大约三分之一存储容量)。
He says that the startup's battery keeps 90 percent of its storage capacity after 2,000 charges (traditional rechargeable batteries lose nearly a third of their capacity after about 500 charges).
他说,这种新电池可以在充放电2000次以后,仍保持百分之九十的存储容量(传统的可充电电池在充放电500次后会损失大约三分之一存储容量)。
He says that the startup's battery keeps 90 percent of its storage capacity after 2, 000 charges (traditional rechargeable batteries lose nearly a third of their capacity after about 500 charges).
快速充放电的大容量电池将使现在仍处于边缘的科技变得更有吸引力。
High-storage batteries that could charge and discharge quickly might make a number of still-marginal technologies much more attractive.
公司没有使用电池组,而是转而利用数秒内可充放电的电容。
But, rather than rely on batteries, the company turned to capacitors which can be charged and discharged in just seconds.
林宣称,在2000次充放电中电池不会降低储电量,大约可以使用七年,即使超过2000次,电池的储电量最多跌到80%。
Lin claims the batteries will not degrade until they have been fully charged 2, 000 times, which should take seven years, and even then, the battery's capacity only drops to 80%.
你只能完全充放电一次来校正电池。
You have to fully charge and then discharge your battery only once to calibrate it.
你只能完全充放电一次来校正电池。
You have to fully charge and then discharge your battery only once to calibrate it.
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