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General_IO_simulation_AD(RC)
- 普通IO型单片机通过电阻电容(RC)充放电实现AD检测,本案例是海尔芯片。-Ordinary IO type microcontroller through the resistance capacitance (RC) charge and discharge to achieve AD detection, this case is Haier chip.
SN8P2602C
- 松翰SN8P2602C充放电调档位,多士炉完整程序,内有原理图。-Sonix SN8P2602C charge discharge downshift, toaster complete procedures, in principle.
pscad 中电池模块
- pscad 中电池模块,实现指定SOC条件下自动充放电
DY
- 电源适配器程序,自带电池高级适配器,自带充放电保护-The program comes with power adapter, battery charge and discharge protection with advanced adapter.
power_battery
- 一个镍氢电池充放电过程的仿真模型,可以直观显示整个充放电过程-A nickel-hydrogen battery charging and discharging process simulation model, you can visually display the entire discharge process
current_1_capacitor
- 超级电容充放电测试,能够都实现超级电容的横流充电和横流放电,观测超级电容的端电压-the test of supercapacitor charge or discharge
parallel_battery_SC_boost_converter
- 这个例子示出了充放电时的超级电容器的模式。该电路示出了与电池超级电容器的一个简单的杂交。超级电容器被连接到降压/升压转换器和电池连接到升压转换器。电池的功率由一个速率限制器块,因此瞬态功率由超级电容器供给到DC总线限制。-This example shows the supercapacitor model during charge and discharge. The circuit illustrates a simple hybridization of a supercapacit
cap
- 本代码是基于STC89C52单片机最小系统开发环境的测量未知电容电路。根据555定时器的不同电容充放电时间得到未知电容值。-The code is based on the STC89C52 MCU minimum system development environment for the measurement of unknown capacitance circuit. According to the different capacitor charge and discharge t
BatteryMonitor
- 读取系统电池信息厂商、型号,电量百分比,电量总电量,电压,充放电率,电流,充电状态-Read information system battery manufacturer, model, power percentage, total electricity power, voltage, charge and discharge rate, the current, the charging status
read-battery-charge-and-useage
- 读取笔记本电脑充放电电流,其中电流与电压有设定额定值-read battery charge and check it
BATMONI-bm3033V2
- 扫地机器人的电池管理系统,的测试程序,包括充放电,过流过压,温度,adc等-battery monitor system
pv
- 光伏电池仿真,光伏电池模型建立,最大功率跟踪控制,蓄电池充放电控制-Photovoltaic cell simulation, photovoltaic cell model, maximum power tracking control, battery charge and discharge control
SC_boost_converter11111
- 超级大电容以及电池的充放电仿真,根据功率控制从而得到给定的输出功率-Super capacitor and battery charge and discharge simulation, according to power control to get a given output power
88f54TouchKey
- PWM0输出500K方波信号 采集按键数据变化 根据按键数据量变化范围确定是否有按键,PWM输出500KHZ方波信号 对电容进行充放电,当手指触摸到金属件 电容参数发生变化,从而电压发生变化,利用AD功能检测变化量,就知道有按键 触摸按键有电阻和电容之分-PWM0 output 500 k square wave signal acquisition button data changes According to the key data volume range to determi
Reliability--of-Wind-Farm-bess-
- 对含储能和风电的电力系统进行了可靠性评估,利用序贯蒙特卡洛法,把风储系统接入IEEE-RBTS系统来仿真,探讨了风电场、储能系统、储能容量和储能最大充放电功率对系统可靠性的具体影响。-The reliability of the power system with energy storage and wind power is uated. The wind storage system is connected to the IEEE-RBTS system by using the se
muhuPID
- 模糊PID控制,采样模糊控制器和PID控制相结合,实现蓄电池的充放电-Fuzzy PID control, sampling fuzzy controller and PID control combined to achieve the battery charge and discharge
DCDC
- 实现双向DC/DC变换器电压电流充放电切换-Implementation of bidirectional DC/DC converter voltage and current charge and discharge switching
DCDC程序 (1)
- 设计并制作用于电池储能装置的双向DC-DC变换器,实现电池的充放电功能,功能可由按键设定,亦可自动转换。(A bidirectional DC-DC converter for battery energy storage is designed and implemented to realize battery charging and discharging functions. The functions can be set by the button and also can be
adc
- 采集多路电压值,继而进行相应动作,单片机控制蓄电池充放电(Collect multi-channel voltage value, then the corresponding action)
PEDL5238-07(2)
- 采集16节电压、监测充放电电流、均衡功能(the function of cell voltage monitoring, charge/discharge current monitoring function, and it can detect over-charge/over-discharge of each battery cell charge/discharge over-current.)