太阳能充电器
太阳能充电器的相关文献在1992年到2022年内共计694篇,主要集中在电工技术、无线电电子学、电信技术、自动化技术、计算机技术
等领域,其中期刊论文91篇、会议论文3篇、专利文献488603篇;相关期刊67种,包括世界发明、科学画报、物探装备等;
相关会议3种,包括中华医学会医学工程分会第十二次学术年会暨2011中华临床工程及医疗信息化大会、Power and Energy Engineering Conference 2010(PEEC2010)(2010年电力与能源工程学术会议)、第九届中国太阳能光伏会议等;太阳能充电器的相关文献由922位作者贡献,包括夏颖、赵亮、夏明光等。
太阳能充电器—发文量
专利文献>
论文:488603篇
占比:99.98%
总计:488697篇
太阳能充电器
-研究学者
- 夏颖
- 赵亮
- 夏明光
- 林芝青
- 陈磊
- 熊开富
- 庄伟伟
- 梁坚
- 许国其
- 陈端典
- 张桂生
- 李培坤
- 李毅
- 钱增磊
- 陈万永
- 陈文明
- 冯宏
- 刘俊峰
- 吕佳澎
- 吴月广
- 姚峰
- 桂裕鹏
- 约翰·A·安德森
- 胡泽利
- 邱旭东
- 吴凤明
- 吴燕
- 张庆强
- 张建华
- 徐伟
- 李懿
- 沈亨春
- 沈元仲
- 沈艳
- 胡德
- 虞彦
- 钱燕
- 陈五奎
- 马世明
- 黄成成
- 不公告发明人
- 储凤舞
- 冯杰
- 刘强
- 刘明轩
- 卓楚光
- 吴亮
- 张剑
- 张小刚
- 李光明
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秦玉娟;
杨桐;
郭阳
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摘要:
车载急用电瓶太阳能充电器是一款针对汽车电瓶电量不足或电瓶亏电打不着火的情况而设计的产品,产品主要由太阳能板、滤波电路、降压稳压电路、充电驱动电路、反馈电路、过流保护电路等组成,可吸附在窗户或车顶上吸收太阳光实现将太阳能转换为电能以后存储在蓄电池,为汽车电瓶等设备供电,同时多余的电量也可为USB电子产品充电.
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吴常瑞;
宋玉群;
马世明
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摘要:
相较于传统物探采集设备采用蓄电池进行供电的模式,太阳能充电器在供电系统中的并联使用有效提高了采集设备的工作时长,使物探采集施工效率得以极大提升。尤其在大道数采集作业中,太阳能充电器补充供电的功能日趋显著。本文系统分析了物探采集系统中太阳能充电器类型选择、性能分析及采集设备与太阳能充电器的功率匹配计算,并且以典型物探作业项目应用进行示例。
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吴常瑞;
宋玉群;
马世明
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摘要:
相较于传统物探采集设备采用蓄电池进行供电的模式,太阳能充电器在供电系统中的并联使用有效提高了采集设备的工作时长,使物探采集施工效率得以极大提升.尤其在大道数采集作业中,太阳能充电器补充供电的功能日趋显著.本文系统分析了物探采集系统中太阳能充电器类型选择、性能分析及采集设备与太阳能充电器的功率匹配计算,并且以典型物探作业项目应用进行示例.
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牧溪1
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摘要:
春天到了,万物生机勃勃,草长莺飞、繁花满树,是野外远足的最好时机。户外旅行、野营,各种实用的装备必不可少,它们可以让你的出行更加舒适、方便。
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王似玉1
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摘要:
太阳能作为一种可再生能源它具有取之不尽、用之不竭和清洁安全等特点,因此有着广阔的应用前景,随着光伏组件价格的不断降低和光伏技术的发展,太阳能光伏发电系统将逐渐由现在的补充能源向替代能源过渡。本文设计了一款太阳能充电器它是由单片机最小系统、太阳能充电电路、ADC0832转换模块、太阳能充电电池、液晶显示模块和电源模块组成的。此太阳能充电器制作简单,性价比高,性能稳定。
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Zhongyi He
- 《Power and Energy Engineering Conference 2010(PEEC2010)(2010年电力与能源工程学术会议)》
| 2010年
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摘要:
To simplify the implementation of Maximum Power Point Tracking (MPPT) for off-grid solar applications,a novel control method via load parameters is proposed. The study is based on a simple and effective PV mathematical model in which the parameters are taken from photovoltaic (PV) module datasheet. The monotonic relationship between PV output voltage and duty cycle of power switch in solar chargers with the form of Buck and single-ended primary inductance converter (SEPIC) is revealed and made it feasible to implement MPPT control by combining battery charging power and power switch duty cycle variations. The disturbance step of duty cycle in perturb and observe (P&O) MPPT algorithm is determined according to the relationship between battery charging power and duty cycle. The dynamic response of the proposed MPPT method is improved by periodic state reset for MPPT control while only small disturbance step of duty cycle is required. Simulation and experiment results are provided to evaluate the feasibility and validity of the proposed control.
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Zhongyi He
- 《Power and Energy Engineering Conference 2010(PEEC2010)(2010年电力与能源工程学术会议)》
| 2010年
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摘要:
To simplify the implementation of Maximum Power Point Tracking (MPPT) for off-grid solar applications,a novel control method via load parameters is proposed. The study is based on a simple and effective PV mathematical model in which the parameters are taken from photovoltaic (PV) module datasheet. The monotonic relationship between PV output voltage and duty cycle of power switch in solar chargers with the form of Buck and single-ended primary inductance converter (SEPIC) is revealed and made it feasible to implement MPPT control by combining battery charging power and power switch duty cycle variations. The disturbance step of duty cycle in perturb and observe (P&O) MPPT algorithm is determined according to the relationship between battery charging power and duty cycle. The dynamic response of the proposed MPPT method is improved by periodic state reset for MPPT control while only small disturbance step of duty cycle is required. Simulation and experiment results are provided to evaluate the feasibility and validity of the proposed control.
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Zhongyi He
- 《Power and Energy Engineering Conference 2010(PEEC2010)(2010年电力与能源工程学术会议)》
| 2010年
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摘要:
To simplify the implementation of Maximum Power Point Tracking (MPPT) for off-grid solar applications,a novel control method via load parameters is proposed. The study is based on a simple and effective PV mathematical model in which the parameters are taken from photovoltaic (PV) module datasheet. The monotonic relationship between PV output voltage and duty cycle of power switch in solar chargers with the form of Buck and single-ended primary inductance converter (SEPIC) is revealed and made it feasible to implement MPPT control by combining battery charging power and power switch duty cycle variations. The disturbance step of duty cycle in perturb and observe (P&O) MPPT algorithm is determined according to the relationship between battery charging power and duty cycle. The dynamic response of the proposed MPPT method is improved by periodic state reset for MPPT control while only small disturbance step of duty cycle is required. Simulation and experiment results are provided to evaluate the feasibility and validity of the proposed control.
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Zhongyi He
- 《Power and Energy Engineering Conference 2010(PEEC2010)(2010年电力与能源工程学术会议)》
| 2010年
-
摘要:
To simplify the implementation of Maximum Power Point Tracking (MPPT) for off-grid solar applications,a novel control method via load parameters is proposed. The study is based on a simple and effective PV mathematical model in which the parameters are taken from photovoltaic (PV) module datasheet. The monotonic relationship between PV output voltage and duty cycle of power switch in solar chargers with the form of Buck and single-ended primary inductance converter (SEPIC) is revealed and made it feasible to implement MPPT control by combining battery charging power and power switch duty cycle variations. The disturbance step of duty cycle in perturb and observe (P&O) MPPT algorithm is determined according to the relationship between battery charging power and duty cycle. The dynamic response of the proposed MPPT method is improved by periodic state reset for MPPT control while only small disturbance step of duty cycle is required. Simulation and experiment results are provided to evaluate the feasibility and validity of the proposed control.
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Zhongyi He
- 《Power and Energy Engineering Conference 2010(PEEC2010)(2010年电力与能源工程学术会议)》
| 2010年
-
摘要:
To simplify the implementation of Maximum Power Point Tracking (MPPT) for off-grid solar applications,a novel control method via load parameters is proposed. The study is based on a simple and effective PV mathematical model in which the parameters are taken from photovoltaic (PV) module datasheet. The monotonic relationship between PV output voltage and duty cycle of power switch in solar chargers with the form of Buck and single-ended primary inductance converter (SEPIC) is revealed and made it feasible to implement MPPT control by combining battery charging power and power switch duty cycle variations. The disturbance step of duty cycle in perturb and observe (P&O) MPPT algorithm is determined according to the relationship between battery charging power and duty cycle. The dynamic response of the proposed MPPT method is improved by periodic state reset for MPPT control while only small disturbance step of duty cycle is required. Simulation and experiment results are provided to evaluate the feasibility and validity of the proposed control.