Description: 用89C52制作太阳电池数显充放电控制器原程序.说明:70H内存单元存放采样值,78H-7AH存放显示的BCD码数据;自然就依次为个位、十位和百位,模数转换器是ADC0809-89C52 production of solar cells with a number of significant charge-discharge controller original procedures. Description: 70H memory unit storing sampled values, 78H-7AH store display BCD code data naturally followed by a bit, 10 and 100, ADC is the ADC0809 Platform: |
Size: 2048 |
Author:韩小健 |
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Description: 本人用STC12LE5202AD做过的太阳能草坪灯LED充放电控制器,具有浮充,过充,过放,光控+时控等功能,
实际应用良好,希望大家多多指导。-I am done with STC12LE5202AD solar lawn lamp LED charge and discharge controller, with a float, over charge, over discharge, light control+ time control and other functions, the practical application of good, I hope you lot of guidance. Platform: |
Size: 3072 |
Author:李星 |
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Description: a Matlab Simulink model of a simple charge controller with the use of hysteresis to solve the problem of oscillations it is suitable to use with renewable energy projects Platform: |
Size: 9216 |
Author:sandro |
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Description: 光伏控制器,自动充放电控制12V/10A光伏控制器(ERA-04-10-A):
额定工作电压:DC12V
最大充电电流:10A
最大放电电流:5A/路(共两路负载)
太阳能组件开路电压:25V
空载电流:<15mA
温度补偿:-20Mv/°C
工作环境温度:-25°C~+50°C
使用海拔:<5500M
控制器尺寸(mm):
光控电压(25°C):<=3.3V
过放保护电压(25°C):<10.8V
过放恢复电压(25°C):>10.8V
过充保护电压(25°C):>15.0V
过压保护电压:17.68V
过压恢复电压:14.7V
浮充电压(25°C):13.4V~13.7V
恢复正常充电电压(25°C):13.2V
结束正常充电电压(25°C):15.0V
-PV controller, automatic charge and discharge control 12V/10A PV controller (ERA-04-10-A): Rated voltage: DC12V Maximum charge current: 10A Maximum discharge current: 5A/Road (a total of two loads) Solar components of the open circuit voltage: 25V No-load current: < 15mA Temperature Compensation:-20Mv/° C Operating Temperature:-25 ° C ~+50 ° C with elevation: < 5500M Controller Size (mm): light control voltage (25 ° C): < = 3.3V over-discharge protection voltage (25 ° C): < 10.8V over-discharge recovery voltage (25 ° C):> 10.8V overcharge protection voltage (25 ° C):> 15.0V over-voltage protection Voltage: 17.68V overvoltage recovery voltage: 14.7V float voltage (25 ° C): 13.4V ~ 13.7V back to normal charging voltage (25 ° C): 13.2V end of the normal charging voltage (25 ° C): 15.0V Platform: |
Size: 5120 |
Author:zhou |
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Description: 太阳能电池板控制器,通过感应阳光的不同,控制电池的充电与放电。-Solar panel controller, different from the sun through the induction and control the battery charge and discharge. Platform: |
Size: 1024 |
Author:段佳玉 |
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Description: (有电路图)基于模糊控制的太阳能MPPT充电控制器的研究与实现.-(With circuit) based on fuzzy control MPPT solar charge controller and its implementation. Platform: |
Size: 1814528 |
Author:马吉敏 |
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Description: 太阳能充电控制器程序,主要提供涓流,过充过放保护-The solar charge controller program, mainly to provide a trickle, overcharge and over discharge protection Platform: |
Size: 3072 |
Author:吕一博 |
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Description: 本文主要是对太阳能充电控制器研究,例如蓄电池部分。-This paper is mainly about the research of solar charge controller, such as a battery part. Platform: |
Size: 3625984 |
Author:彭玥 |
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Description: 此图式经典太阳能充放电控制器的原理图,并且已经量产了,有过流,电压检测功能-This classic solar schematic diagram for charge and discharge controller, and has production, and there are over-current, voltage detection Platform: |
Size: 165888 |
Author:郭桂良 |
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Description: When a solar PV system is deployed for practical applications, the IV Charateristics keeps on changing with insolation and
temperature. In order to receive maximum power the load must adjust itself and accordingly to track maximum power point. The voltage
at which PV module can produce maximum power is called ‘maximum power point’ (or peak power voltage). Maximum power varies
with solar radiation, ambient temperature and solar cell temperature. Typical PV module produces power with maximum power voltage of
around 17 V when measured at a cell temperature of 25°C, it can drop to around 15 V on a very hot day and it can also rise to 18 V on a
very cold day. Solar charge controllers are having wide range applications like in street lighting, water pumping system and many other
industrial purposes. This paper mainly gives idea about designing of solar charge controller using maximum power point tracking system. Platform: |
Size: 201728 |
Author:imanedilaneh |
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Description: The file which is attached is very helpful to understand the working of charging the battery solar using microcontrollar-The file which is attached is very helpful to understand the working of charging the battery solar using microcontrollar Platform: |
Size: 251904 |
Author:Umair |
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