charge capacity
英 [tʃɑːdʒ kəˈpæsəti]
美 [tʃɑːrdʒ kəˈpæsəti]
装载量;(电池)蓄电量
双语例句
- The effect factors such as the buried channel junction depth and substrate doping concentration on the CCD's optimum operating point and maximum charge capacity are analysed.
分析计算了埋沟结深、衬底掺杂等对CCD最佳工作点及最大电荷处理量的影响。 - Transient simulation is carried out for the charge handling capacity of a CCD with channel width of 7 μ m, followed by discussion on the effect of different channel junction depth and impurity on charge handling capacity.
采用此方法对一种沟道宽度为7μm的CCD信道电荷容量进行了瞬态模拟,对不同结深、不同沟道掺杂浓度对CCD电荷容量的影响进行了讨论。 - The results show that the electrode made from the modified materials have small internal impedance, high charge and discharge capacity and good cycle life.
结果表明,这种材料制备的电极,不仅内阻小,而且有高的充放电容量和好的循环寿命。 - Especially, the battery with electrolyte saturated by zinc oxide and indium oxide shows excellent charging-discharging performance and charge retention capacity as well as its cycle life.
在电解液中同时添加氧化铟和氧化锌可提高电池的充放电效率和荷电保持能力,电池的循环寿命也得到提高。 - The calculation clearly shows that the electrode potential of LIG decreases sharply with its charge capacity to increase when LIG has lower charge capacity.
计算结果表明,当嵌锂石墨嵌锂容量较低时,电极电位随着锂离子的不断嵌入而显著降低; - Steady discharge bench-test with the horizontal lead acid battery was implemented. The relationship between open circuit voltages versus state of charge, the capacity characteristics and the voltage characteristics were studied.
对水平铅酸电池进行了稳态放电台架实验,研究了电池开路电压和充电状态的对应关系、容量特性和电压特性; - Measurement of the Surface Charge Capacity of Fine Sediment from Estuary
河口细颗粒泥沙表面电荷数量的测定法 - All these additives could greatly increase the charge and discharge capacity of manganese dioxide electrode.
同时,它们的加入均使电极充放电容量大大提高。 - 2-D Numerical Simulation of Charge Handling Capacity in Buried-channel CCDs
埋沟CCD器件电荷处理容量的二维数值模拟 - The low temperature characteristics of Ni MH batteries can be modified by decreasing the thickness of negative electrode and increasing its charge state capacity.
通过减薄负极的厚度和提高负极的充电态容量可提高MHNi电池的低温性能。 - Little Ni doping increased the discharge capacity of LiFePO_4 and improved the charge/ discharge capacity at high rate.
少量Ni掺杂可提高LiFePO4的放电容量,改善高倍率充放电性能。 - Application of slow pulse fast charge in capacity restoration of VRLA battery
慢脉冲快速充电在VRLA电池容量恢复中的应用 - The charge discharge capacity irreversibility was decreased with the increase of carbonization temperature.
随着炭化处理温度升高,炭电极充放电容量不可逆性在逐渐降低。 - The results show that the high gassing volume and water loss rate are caused by the high charging voltage while the sulphation of plates is due to the insufficient charge capacity caused by the low charging voltage.
结果表明,电池析气量和失水率高是由于充电电压过高引起的,而极板的硫酸盐化则是因为充电电压过低、充电容量不足。 - Research of Charge Storage Capacity Using S of t Switch
储能电容软开关充电的研究 - Polarization and charge capacity of positive negative plates of lead acid battery at low temperature
铅酸蓄电池正负极低温充电容量和极化特征 - The results that whether the Zn-AgO battery can provide enough charge capacity and ensure enough charge efficiency were studied in the case that the charge voltage at constant voltage approached to the discharge voltage when Zn-AgO battery is used as UPS.
探讨了采用锌氧化银电池做UPS电源,在恒压充电电压与放电电压极其接近的情况下,能否保证足够的充电效率,能否提供足够的充电容量。 - The main reason for this is that the size of inhalable particles is too small, resulting in a poor charge capacity, so the electric field is difficult to capture them.
其主要原因是可吸入颗粒物的粒径太小,以致荷电量不足,难以在电场中被捕获。 - To improve the performance of neural probes for chronic use, we need to construct a conducting polymer layer with low impedance, high charge capacity density and good biocompatibility on the neural microelectrode.
通过在微电极表面构筑一层具有低阻抗、高电荷注入和良好生物相容性的导电高分子修饰层,可以提高探针的长期稳定性。 - This active lactam group, at certain temperatures, will react with a number of substances and generate charge-transfer complex; this group also gives PVP good charge storage capacity.
PVP的这个内酰胺活性基团在一定的温度下会处于反应状态,能与许多物质生成电荷转移复合物;这个基团使得它具有良好的存储电荷性能。 - The existence of non-lithiation/ delithiation of Li-ion is the main reason of the phenomenon that discharge capacity is more than the charge capacity.
这种非锂离子脱嵌过程的存在是造成最初几次充放电容量大于理论容量的原因之一。 - Rhodamine B and fluorescein sodium were used as fluorescence probes to study the charge separation capacity of this micro/ nanofluidic device.
以罗丹明B和荧光素钠为荧光探针,考察了微流控芯片的电荷选择能力。 - The main conclusions are as below: ( 1) The first discharge capacity of binary alloy and ternary alloy is both higher, but the first charge capacity is smaller.
主要的结论如下:(1)二元硅基合金和三元硅基合金的首次放电比容量都比较大,但充电比容量较小,首周不可逆容量损失较大。