最后还搭建了一套蓄电池数据采集调试系统,本系统基本完成了课题的目标,实现了蓄电池单体电压、蓄电池组总电压、蓄电池电流和蓄电池温度数据的监控。
Then a battery wireless data acquisition system is set up at the end of the dissertation. The system can monitor the single battery voltage, the total voltage, current and temperature of the battery.
由于此蓄电池的低成本和在环境温度下的优秀性能,锂电池将会在推进力应用的技术上有广泛的前途。
Due to the low cost of the battery cells and excellent performance at ambient temperature, Lithium-ion (Li-ion) battery is a promising technology for propulsion applications.
由于铅酸蓄电池真实的SOC受许多因素如电池温度、充放电次数、电池老化等因素的影响,传统的SOC预测技术很难达到理想的效果。
Since the actual SOC of lead acid battery is influenced by many factors, such as temperature, cycle of discharge and aging of battery, it is difficult to obtain ideal results by traditional methods.
钠硫蓄电池技术以其性能高、能量密度大、温度稳定性好、成本低、安全性好的特点已成为目前最有前景的电力需求侧管理新技术之一。
NAS battery technology has become one of the most promising DSM technologies for its high performance, large energy density, good temperature stability, low cost and better security.
通过对电源结构的详细阐述,分析总结了电源远程监控系统需要检测、控制的主要参数,并且以蓄电池的电压、电流、温度检测设计作为电源参数检测的一个应用实例加以分析。
We analyses the structure of power supply, many parameters should be detected in remote monitoring, we give an example of how to detect the voltage, current and temperature of accumulator.
研究了环境温度,过量空气系数,蓄电池电压,点火提前角对单循环冷起动时,起动转速和排放的影响。
The effects of environment temperature, excess air ratio, storage battery voltage on start speed and emissions are studied.
控制器还根据环境温度和蓄电池端电压选择适当的充电方式,蓄电池将充满时,控制器会自动调整成为过充和浮充方式,从而能有效地延长蓄电池的寿命。
Based on environment temperature and battery terminal voltage, the controller can also adopt proper charge mode, such as overcharge and floating charge, to extend the battery life.
环境温度对碱性蓄电池充电接受能力的影响是明显的,可以采取措施进行一定程度的调整。
The influence of ambient temperature on charge efficiency of alkaline storage battery was notable, but some measures may be taken to elevate this influence efficiency.
采用压力温度法测量氢气消耗量,对蓄电池电压、电流进行连续测量和积分运算得到电能量消耗。
Pressure and temperature method is assumed to measure hydrogen consumption, Battery voltage and current is continuously measured and integrated to calculate electric energy consumption.
公开了一种电阻随温度而变化的热敏电阻,以及连接有该热敏电阻的蓄电池。
A thermistor of which resistance is changed depending on temperature and a secondary battery to which the thermistor is attached are disclosed.
报导了直流操作电源(直流屏)中铅酸蓄电池的过充电保护与温度补偿特性的模拟试验研究结果。
Reported are some investigation results of overcharging protection and temperature compensation characteristics of lead acid battery used in electrical power systems.
蓄电池充电器采用三段式充电模式并具温度补偿功能,广泛应用于发电机组启动电池、太阳能电池等;
Battery charger used three segment type charging mode and with temperature compensation function, widely apply in generator group started battery, solar cells etc.
对通信系统中阀控密封铅酸(VRLA)蓄电池的过充电保护与温度补偿特性进行了模拟实验研究。
Overcharge protection and temperature-compensation characteristics of VRLA battery used for communication system were studied.
辅于温度智能补偿精准控制蓄电池的放电深度及充电饱和度,保证蓄电池工作于最佳状态。
We control the depth of discharge and charge saturation accurately by temperature compensation. It makes the lifetime of the battery longer.
关于嫦娥一号的寿命,孙泽洲表示,从目前情况来看,“嫦娥”推进剂余量、蓄电池稳定性、温度维持水平等参数都很好。
Concerning the life span of Chang 'e-1, Sun introduced that some parameters such as left propellant, stability of storage battery and temperature maintaining level are all perfect.
单片机负责现场管理以及检测蓄电池的温度,还要将前端的DSP和后台PC机联系起来以实现数据共享。
MCU is responsible for locale management and temperature measure. It is also responsible for contact between DSP and PC in order to share data.
单片机负责现场管理以及检测蓄电池的温度,还要将前端的DSP和后台PC机联系起来以实现数据共享。
MCU is responsible for locale management and temperature measure. It is also responsible for contact between DSP and PC in order to share data.
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