For a long time, because of the lack of investment capital and enough attentions, the overall constructions of rural power grid were far behind than the urban power grid in Chongqing Jiangbei Power Company. The low vo...For a long time, because of the lack of investment capital and enough attentions, the overall constructions of rural power grid were far behind than the urban power grid in Chongqing Jiangbei Power Company. The low voltage problems were highlighted in the rural power grid due to the characteristics of rural power grid. Using the distribution network flow calculation method, we evaluated the low voltage problems of the rural power grid which belongs to Chongqing Jiangbei Power Company. In addition, we collected the data of distribution transformers in electricity consumption peak period. Some practical management strategies were proposed by the analysis and evaluation of potential and appeared low voltage problems.展开更多
Time-to-Digital Converter (TDC) is a key block used as the phase/frequency detector in an All-Digital Phase-Locked Loop (ADPLL). Usually, it occupies a large proportion of ADPLL's total power consumption up to abo...Time-to-Digital Converter (TDC) is a key block used as the phase/frequency detector in an All-Digital Phase-Locked Loop (ADPLL). Usually, it occupies a large proportion of ADPLL's total power consumption up to about 30% to 40%. In this paper, the detailed power consumption of different components in the TDC is analyzed. A Power Management Block (PMB) is presented for the TDC to reduce its power consumption. A 24-bits TDC core with the proposed PMB is implemented in HJTC 0.18 μm CMOS technology. Simulation results show that up to 84% power reduction is achieved using our proposed technique.展开更多
The paper covers analysis and investigation of lighting automation system in low-traffic long-roads. The main objective is to provide optimal solution between expensive safe design that utilizes continuous street ligh...The paper covers analysis and investigation of lighting automation system in low-traffic long-roads. The main objective is to provide optimal solution between expensive safe design that utilizes continuous street lighting system at night for the entire road, or inexpensive design that sacrifices the safety, relying on using vehicles lighting, to eliminate the problem of high cost energy consumption during the night operation of the road. By taking into account both of these factors, smart lighting automation system is proposed using Pattern Recognition Technique applied on vehicle number-plates. In this proposal, the road is sectionalized into zones, and based on smart Pattern Recognition Technique, the control system of the road lighting illuminates only the zone that the vehicles pass through. Economic analysis is provided in this paper to support the value of using this design of lighting control system.展开更多
随着汽车技术的不断发展,汽车的电气设备种类越来越多,电器消耗的电能占整车能量比重不断上升,对汽车低压电源管理提出更高要求。为满足用户日益增长的汽车电子设备用电需求,达到减少整车能量消耗、提高电池充电效率的目的,在对纯电动...随着汽车技术的不断发展,汽车的电气设备种类越来越多,电器消耗的电能占整车能量比重不断上升,对汽车低压电源管理提出更高要求。为满足用户日益增长的汽车电子设备用电需求,达到减少整车能量消耗、提高电池充电效率的目的,在对纯电动汽车负载进行分类的基础上,利用遗传算法对用于电量安全分级的低压电池荷电状态(state of charge,SOC)进行优化,并提出一种基于SOC的4级恒流低压锂电池充电管理策略;利用AVL-Cruise和MATLAB-Simulink软件联合仿真搭建车辆模型,采用不同工况进行仿真验证和对比分析。结果表明,低压锂电池电源管理策略能够满足纯电动汽车的电量安全性要求,在一定程度上提高了整车经济性;优化后的锂电池充电效率有一定的提高,充电时间也有所减少。展开更多
文摘For a long time, because of the lack of investment capital and enough attentions, the overall constructions of rural power grid were far behind than the urban power grid in Chongqing Jiangbei Power Company. The low voltage problems were highlighted in the rural power grid due to the characteristics of rural power grid. Using the distribution network flow calculation method, we evaluated the low voltage problems of the rural power grid which belongs to Chongqing Jiangbei Power Company. In addition, we collected the data of distribution transformers in electricity consumption peak period. Some practical management strategies were proposed by the analysis and evaluation of potential and appeared low voltage problems.
基金Supported by the Tsinghua National Laboratory for Information Science and Technology(TNList)Cross-Discipline Foundationthe National Science and Technology Major Project(No.2010ZX03006-003-01)
文摘Time-to-Digital Converter (TDC) is a key block used as the phase/frequency detector in an All-Digital Phase-Locked Loop (ADPLL). Usually, it occupies a large proportion of ADPLL's total power consumption up to about 30% to 40%. In this paper, the detailed power consumption of different components in the TDC is analyzed. A Power Management Block (PMB) is presented for the TDC to reduce its power consumption. A 24-bits TDC core with the proposed PMB is implemented in HJTC 0.18 μm CMOS technology. Simulation results show that up to 84% power reduction is achieved using our proposed technique.
文摘The paper covers analysis and investigation of lighting automation system in low-traffic long-roads. The main objective is to provide optimal solution between expensive safe design that utilizes continuous street lighting system at night for the entire road, or inexpensive design that sacrifices the safety, relying on using vehicles lighting, to eliminate the problem of high cost energy consumption during the night operation of the road. By taking into account both of these factors, smart lighting automation system is proposed using Pattern Recognition Technique applied on vehicle number-plates. In this proposal, the road is sectionalized into zones, and based on smart Pattern Recognition Technique, the control system of the road lighting illuminates only the zone that the vehicles pass through. Economic analysis is provided in this paper to support the value of using this design of lighting control system.
文摘随着汽车技术的不断发展,汽车的电气设备种类越来越多,电器消耗的电能占整车能量比重不断上升,对汽车低压电源管理提出更高要求。为满足用户日益增长的汽车电子设备用电需求,达到减少整车能量消耗、提高电池充电效率的目的,在对纯电动汽车负载进行分类的基础上,利用遗传算法对用于电量安全分级的低压电池荷电状态(state of charge,SOC)进行优化,并提出一种基于SOC的4级恒流低压锂电池充电管理策略;利用AVL-Cruise和MATLAB-Simulink软件联合仿真搭建车辆模型,采用不同工况进行仿真验证和对比分析。结果表明,低压锂电池电源管理策略能够满足纯电动汽车的电量安全性要求,在一定程度上提高了整车经济性;优化后的锂电池充电效率有一定的提高,充电时间也有所减少。