charging load
英 [ˈtʃɑːdʒɪŋ ləʊd]
美 [ˈtʃɑːrdʒɪŋ loʊd]
网络 充电负载
双语例句
- Wrong polarity protection, over charging protection, over discharging protection, over load, short circuit protection.
错极性保护、过充保护、过放保护、过载保护、短路保护。 - According to the actual load characteristics, ADF produces the required currents with PWM control technique and compensates the ripple current by detecting and adjusting the load voltage. By charging and discharging the capacitor at load side, the current ripple through the load becomes very low.
根据其实际负载特性,通过检测负载端电压,利用电流的PWM控制技术产生所需电流,通过对负载侧的滤波电容进行充、放电调整负载端电压,从而实现负载电流的低纹波。 - Research on distributed charging system with migration on the basis of system load
基于负载可迁移的分布式计费系统研究 - The operating process of the automatic accumulator system and its functional principle of automatic charging, load relieving and counter-interference as well as its characteristics and parameters are detailed in this article for the reference in hydraulic design and equipment service.
本文详细分析了自动蓄能器系统的工作过程,阐明了它的自动充油、保压卸荷和防干扰的功能原理及特性参数。 - From Charge Free to Charging ② The relationship between the discharge levy amount and the total pollution load retains a highly positive correlation.
从免费到收费②废水排污收费总额与污染负荷高度线形相关; - Natural frequency of oil-gas vibration damping system on loader work attachments is calculated. Influences of charging pressure of accumulator and load change on system natural frequency are discussed.
计算了装载机工作装置油气减振系统的固有频率,论述了蓄能器充气压力和负载变化对系统固有频率的影响。 - The thesis has a detailed analysis about the theory of series resonance capacitor charging power supply. It lists the expressions of the resonance current and voltage expressions of the resonance capacitor and the load capacitor.
本论文就串联谐振充电电源的基本工作原理进行了详细的分析,推导出了充电过程中谐振电流、谐振电容和负载电容电压解析表达式。 - The physical process of power clock charging and recovering capacitance load is analyzed, and the basic structure of two-phase sinusoidal power clock generation circuits is studied, while the frequency and phase stability are taken into consideration.
分析了功率时钟对电容负载充电与回收的物理过程,研究了正弦功率时钟产生电路的基本结构,考虑了功率时钟的频率与相位的稳定性。 - Because the capacitor voltage always changes in the course of charging, and the equivalent load also changes in a large range, the load characters of charging circuit are required strictly.
由于电容在充电过程中,其电压不断改变,其等效负载也在较大的范围内变化,因而对充电电路的负载特性提出了较高要求。 - When EV and the electric vehicle charging and discharging station construction of large-scale, the electric vehicle load will be very large, which would make impact on the power load to a certain extent.
当电动汽车充放电站规模化建设、电动汽车规模化应用时,庞大的电动汽车负荷将会对电网负荷造成一定程度的影响。 - One the other hand, in order to get high efficiency of the charging power supply in a wide load range, the phase-shift full-bridge PWM converter is selected to accomplish the lag DC/ DC converter.
另一方面,为了使充电电源在大范围负载条件下获得高效率,选择了移相控制全桥PWM变换器作为后级DC/DC变换器的拓扑结构。 - However, charging behavior is random in time and space, which will affect the load, operation, and planning of distribution network when large-scale EVs charge un-coordinately.
然而电动汽车充电行为在时间和空间上具有随机性,规模化电动汽车的无序充电可能会对配电网的负荷、运行和规划造成影响。 - The simulation of coordinated charging strategy shows that it can disperse EV load and make EV charge in the relatively lower price period.
有序充电仿真结果表明:有序充电策略可以分散电动汽车负荷,安排电动汽车在电价相对低的时段充电。 - According to the calculation of the EV power consumption in Shanghai, charging would increase the peak-valley difference of load profile.
根据对未来上海地区电动汽车充电负荷水平的计算和分析,充电负荷可能会增大电网负荷的峰谷差。 - Finally, this paper focused on the repetition pulsed power system based on RSD devices. The modules of the system consist that following as charging module, drive module, circuit protection module, cooling module, RSD-frequency circuit module and the load.
最后研究了基于RSD的重频脉冲功率系统,首先介绍了该重频系统的组成:充电模块、驱动模块、电路保护模块、散热模块、RSD重频电路模块和负载。 - Intelligent control system needs to convert wind and solar energy to a stable DC battery charging, control battery to supply the load, and supply the intelligent protection of every parts of the system.
智能控制器实现将风能和太阳能转换为稳定的直流电为蓄电池充电,控制蓄电池为负载供电,同时为系统各个部分提高完善的保护。 - The operation of charging station must be supported by reliable electricity supply, therefore the influence of charging procedure in EV charging station to power load and power harmonic were analyzed.
由于充换电站运营必须要有可靠的电力供应作为支撑,因此文章从电网负荷和谐波污染方面分析了充换电站中电动汽车充电对电网的影响,为充换电站的规划建设提供理论依据。 - It is pointed out that the electric vehicle charging station load is influenced by several factors such as user charging habits and electric vehicle charging belongs to the random behavior.
首先简要介绍了几种常见的电动汽车充电机类型,分析它们的不同特点和适用范围,指出电动汽车充电站负荷受到用户充电习惯等几个因素的影响,并且电动汽车充电属于随机性行为。 - The principle of multilayer piezoelectric power supply is studied. The mathematical model is established for the process of the stack charging to a storage power capacitance under the high load during projectile launched.
通过对多层压电电源工作原理的研究,建立了多层压电叠堆在弹丸发射过程中产生的高过载作用下,其极面上激发的电量向储能电容充电过程的数学模型。 - Because there is no statistics data for the electric vehicle charging load, the sub-normal distribution and the sub-chi-square distribution are used to forecast charging load.
针对目前电动汽车充电负荷没有统计数据的问题,分别采用了分段正态分布以及分段卡方分布对其充电负荷进行了预测,分段分布预测模型能够考虑分时电价对用户充电时间的引导。