1) charging/discharging
充/放电
2) charge-discharge
充放电
1.
The charge-discharge cycles showed that Ti-doped sample prepared at 600℃,spinels without doping sintered at 600 and 750℃,exhibited a initial capacity of 205,189 and 207mAh/g in the 1st 40-cycles,respectively.
充放电实验表明,在4。
2.
Screening battery from its charge-discharge characteristics is an unique trait peculiar to this system.
采用三级计算机控制方式、多功能电池夹具和模块化结构研制的二次电池检测系统,具有功能多、性能稳定和实用性强的特点,还独创了按充放电性能曲线分选电池的功能。
3.
During the charge-discharge cycles of amorphous (Mg_(60) Ni_(25))_(90)Nd_(10) alloy,NdMg_2 Ni_9 phase appears after four cycles and Mg_2 Ni phase appears after six cycles.
5) Nd_(10)在充放电循环中的组织演变。
3) charge and discharge
充放电
1.
New-type photovoltaic charge and discharge controller;
一种新型光伏发电充放电控制器
2.
Research of Li-ion Charge and Discharge System;
大功率锂离子蓄电池充放电系统的研究
3.
Investigation of Charge and Discharge for Battery Based on Techniques of Bidirectional Converter;
基于双向变流器技术的蓄电池充放电装置的研究
4) charging and discharging
充放电
1.
Analysised charging and discharging of lead-acetate battery;
浅析铅酸蓄电池的充放电过程
2.
Ship lead-acid battery charging and discharging;
船舶铅酸蓄电池与充放电
3.
The host computer is PC which can watch on the whole process of charging and discharging,data controlling,collecting and saving,and real-time displaying the wave form of every cell,and analyzing the data and output it as diagram etc.
该系统分为上位机和下位机2部分,上位机为普通PC机,可完成对电池充放电过程全面监测及数据采集的监控、存储,实时显示各只电池充放电波形,及时分析数据并以图表方式输出等;下位机由单片机结合CPLD构成主控单元完成电池充放电状态切换、电压电流数据的上传等功能。
5) charge/discharge
充放电
1.
The principle and charge/discharge characteristic of Lithium-ion battery are discussed.
针对锂离子电池带来的安全问题,讨论了锂离子电池的工作原理、充放电特性。
2.
Results show that the charge/discharge capacity decrease with increasing of the doping compositions,however charge/discharge efficiency and cyclic properties increase.
用溶胶-凝胶法制备了不同量铜掺杂尖晶石锂锰氧化物,并用扫描电镜、恒电流充放电、循环伏安等方法研究了制备样品的性能。
3.
This thesis researches hardware and arithmetic software scheme of an embedded controller system, which can control four charge/discharge devices and operate in distributed architecture.
化成充放电是蓄电池生产的关键工艺之一,其控制过程直接关系到产品的质量。
6) charge/discharge
充/放电法
参考词条
补充资料:充炭黑充油丁苯橡胶
分子式:
分子量:
CAS号:
性质:同时含有炭黑和油的丁苯橡胶。性能和用途与充炭黑丁苯橡胶和充油丁苯橡胶相似。由冷聚丁苯胶乳与炭黑的水分散液和油乳液经混合、凝聚、洗涤、过滤、干燥等步骤制得。
分子量:
CAS号:
性质:同时含有炭黑和油的丁苯橡胶。性能和用途与充炭黑丁苯橡胶和充油丁苯橡胶相似。由冷聚丁苯胶乳与炭黑的水分散液和油乳液经混合、凝聚、洗涤、过滤、干燥等步骤制得。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。