| 1. | Detecting individual cell voltages in fuel cell stacks based on the optical isolator method
基于光电隔离继电器的燃料电池堆单片电压检测系统的设计 |
| 2. | This dissertation focuses on the hardware and software design of lithium cell voltage measuring and filtering device
所以,本设备由检测和分选两个子系统组成。 |
| 3. | The increase of luminous efficiency is a result of the decreased cell voltage and electron temperature in discharge
当气体放电于较低电压的情况下,电子温度较低并可以提高发光要率。 |
| 4. | If you change the mode settings , the previous cell voltage values may be erased if the cycle does not include an immediate charge
如果你改变模式,只要不是正处于充电过程中,上一次的电池电压可能不会被保留。 |
| 5. | The dynamic response of fuel cell characteristics after step change of cathode inlet velocity , humidity and cell voltage was analyzed
最后,分析了阴极入口速度、湿度和电池电压阶跃变化后电池特性的动态响应特性。 |
| 6. | Consisting of measuring and filtering subsystems , lithium cell voltage measuring and filtering device measures the voltage of cell and filters the unqualified cell
本设备前后两次检测锂电池的电压,测出两次的电压差值,分选就是检出电压差超出规定范围的锂电池。 |
| 7. | The pre - discharge not only eliminates partial wall charges but also increases density of priming particles which help the coplanar - type discharge start at a lower cell voltage
此“先期放电”不但清除了部份的壁电荷还增加空间中带电荷粒子数量并使得其后产生的维持放电可于较低电压时开始。 |
| 8. | The research of the new and high conductivity material of lithium ionic conductor is always an interesting issue in the material field due to its low potential , light weight and providing high cell voltage and energy density
由于锂具有较负的电极电势和较轻的重量,可以为电化学器件提供高的电池电压和能量密度,所以锂离子导体高电导率新材料的研究一直是材料研究领域倍受关注的课题之一。 |
| 9. | The ramp - type sustain waveform is featured with the longer rise - time than the conventional waveform and it is a compromise to let gas discharge with lower cell voltage but still helps accumulate enough wall charges to sustain discharge sequence in cells
斜缓维持波形的特徵为其电压上升时间较传统波形增加了三倍左右,其有助于降低气体放电时的空间电压差和累积足量的壁电荷以维持腔体中气体放电作用得以连续产生的效果。 |
| 10. | The investigation and developing of lithium - ion batteries have attracted worldwide attention due to their excellent properties such as high cell voltage and specific capacity , and so on . remarking progress has been made on researching carbon anode materials
锂离子电池以电压高、比容量大等优点倍受世人关注,对锂离子电池的碳负极材料的研究已取得较大的进展,但正极材料中因锂钴氧化物价高而使其应用受到限制,开发新型的正极材料已是当务之急。 |
