搜索资源列表
Psim_MPPT
- 模擬軟件 太陽能最大電力輸出 PSIM MPPT控制-Maximum power output of solar simulation software PSIM MPPT control
51_single-chip_based_on_th_realization_of_lead-aci
- 在蓄电池应用领域, 铅酸蓄电池以可靠、电容量大、维护简单等特点占有很大的市场。本文太阳能铅酸蓄电 池的充电方案采用了在单片机领域应用最广的51 单片机, 依靠adc 进行模拟量数据采集并在51 上采用软件实现pwm 算法 对12v 铅酸蓄电池进行( 三段精细) 充电控制, 得到良好的控制效果。基于51 单片机的铅酸蓄电池充电器的实现-Applications in batteries, lead-acid battery to a reliable, large capacity, si
solaor
- 太阳能电池充放电控制器电路图,LM317,过压比较-Solar battery charge and discharge control circuit
c
- 太阳能LED交通警示板的警示模块,控制白天关闭夜间开启。-Solar LED traffic warning board warning module to control the opening day and close at night.
taiyangnengludeng
- 文章介绍了一种采用motorola单片机实现太阳能电池最大功率点跟踪控制的精简设计-This paper describes a single chip using motorola solar maximum power point tracking control of the streamlined design
Splitptimsign
- 分体式太阳能热水器控制系统的优化设计Split solar water heater control system for optimum design-Split solar water heater control system for optimum design
LED-lighting--solar-PV-systems
- 太阳能路灯系统能耗较大,所需配套的蓄电池容量也较大,造成成本过高,影47T太阳能路灯系统的实际工程推广。针对此 问题,设计出了一种新型的节能照明控制器,与传统路灯控制器相比,可使能耗大大降低。该控制器控制功能易于实现,运行可 靠,可使照明工程既满足功能性的要求,又能实现最大限度的节能。-Large energy consumption in solar streetlight system, the required battery capacity is also supporti
111
- 槽式太阳能热发电跟踪控制系统的研究Trough solar thermal power tracking control system of-Trough solar thermal power tracking control system of
1212
- 太阳能热水器控制器,控制电磁阀,水温,水位,很好的参考文献,是我收集的,对设计控制器狠好的帮助。-Solar water heater controller to control the solenoid valve, water temperature, water level, a good reference, I collected a good help hard to design the controller.
taiyangneng
- 文中介绍了所设计的太阳能手机充电器, 与普通的手机充电器相比, 它的特殊之处除了能源的供应是来自 于太阳能电池板外, 还具有特殊的充电保护电路.把太阳能电池板放在一个有阳光的地方, 即可以为手机提供一个方便 的太阳能充电点.这种便捷的太阳能充电器几乎可以在任何地方补充电力, 从而获得通信的自由.本文介绍太阳能手机 充电器的控制电路及设计.-This paper introduces the design of solar cell phone charger, compared wi
Solar-home-lighting-system-.kdh
- 太阳能家用照明系统由光伏电池组件、蓄电池、控制器和照明负载等主要器件组成。光伏电池组件将接收到太阳光能转变电能储存在蓄电池之中,控制器将根据用户的需要控制蓄电池向照明负载供电或断电-Solar home lighting system consists of components of photovoltaic cells, batteries, controller and lighting load device.Components of photovoltaic cells will r
MPPT
- 太阳能光伏系统MPPT控制算法的对比研究-MPPT control algorithm of the comparative study of solar photovoltaic systems
fixture-delay-teleoperatio
- 以空间机器人在轨服务为背景,建立了卫星在轨自维护系统的地面遥操作平台.远端由安装 在卫星本体上的一个四自由度机器人和灵巧手的臂/手系统组成,当卫星出现故障时,遥操作者通 过空间鼠标和力反馈数据手套分别控制远端的臂/手系统排除卫星故障,实现卫星的自我维护.对 于地面一太空之间通讯的大时延,利用3D图形预测仿真技术克服时延的影响,并采用虚拟夹具法提 高遥操作系统的安全性和操作性能.在大时延及变时延(约7 s)的条件下,实现了武汉遥操作哈尔 滨的自维护机器人臂/手系统,成功地完成了
power_acdrive3
- Vector Control fed by a inductive motor on SOLAR CELL PHOTOVOLTAIC SIMULINK MATLAB
charge_control_options_for_valve_regulated_lead_a
- Solar battery charger control units for the domestic load application systems
c
- 实现太阳能热水器的控制,主要是水温水位的控制系统的设置-To realize the control of solar water heaters, mainly is the water temperature control system settings
Solar_light
- solar based charging program. Automatic on , off control and charging control.
54397138-solar-tracking
- Maximization of power a solar photo voltaic module (SPV) is of special interest as the efficiency of the SPV module is very low. A peak power tracker is used for extracting the maximum power the SPV module .The present work describes the maximu
EE59
- A new algorithm is presented to control an MPPT (Maximum Power Point Tracker) through an FPGA (Field Programmable Gate Array). The photovoltaic module was assumed to be connected to a generic load by means of a DC/DC converter controlled through
FUZZYPV5
- CONTROL AND OPTIMIZATION OF FUZZY BASED MAXIMUM POWER POINT TRACKING IN SOLAR PHOTOVOLTAIC SYSTEM