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STM32_BLDC_PWM_Hallless
- 基于无刷直流电机的无位置传感器控制实现,利用反电动势检测电路获取电机转子的过零点,然后延时30°进行换相(Based on Sensorless Control of brushless DC motor, the zero-crossing point of motor rotor is obtained by using back-EMF detection circuit, and then commutation is carried out with a delay of 30 deg
光伏模块多种形式Visio绘图
- 给不想花费大量时间用Visio画图的人,文件包括组串式,集中式,直流模块式,主从结构等光伏阵列构成图,及单相单极式光伏并网逆变器电路图等内容。(For those who don't want to spend a lot of time drawing with Visio, the files include cluster-type, centralized, DC-module, master-slave structure and other photovoltaic arrays,
BatteryManagement_v4_r2014a
- 搭建双向DC-DC双电路,实现直流微网并网运行蓄电池恒压充放电(Constant Voltage Charging and Discharging of Batteries in Grid-connected Operation of DC Microgrid Based on Bidirectional DC-DC Double Circuit)
moni
- 直流升压电路输入24输出40, 已经完成电流和电压双闭环控制, 满足大部分扰动的控制(DC boost circuit in 24v out 40v)
F28335_BLDC
- 本次电气工程综合设计实验旨在基于数字信号处理器(DSP)设计并制作直流无刷电动机控制系统,该系统主要包含两个部分,分别为硬件系统与相应的软件。其中,硬件系统主要为电机驱动及开关控制电路板,其目的在于驱动并控制直流无刷电机;调试软件包含电机测试程序以及电机控制系统上位机,其目的在于实现可视化电机调速的功能;本次实验要求我们结合硬件与软件系统,对直流无刷电机进行可视化调速控制。(This electrical engineering comprehensive design experiment a
Battery-Charger-Altium-Files
- Here is a 12 volt lead acid automatic battery charger that shut off the ... For charging purpose, 18 volt DC is used while to power the circuit, 9 volt regulated DC from IC1 is used.
shuangbihuan
- 模型中明显地体现出模型设计主要有电流调节器和转速调节器两个负反馈闭环组成, 把转速调节器的输出当成电流调节器的输入,在通过电流调节器的输出控制后面的电路。 在这里电流环为内环,电压环为外环,所以形成了转速电流双闭环控制的直流调速系统。(The model obviously shows that the design of the model mainly consists of two negative feedback loops: current regulator and speed r
PV_cp1u_SPWM20200427
- 双环控制,直流母线电压外环,电感电流内环预测控制,3kW光伏并网系统,无升压电路,增量电导法,逆变桥控制最大功率追踪,亲测可用。(DC bus voltage outer loop, inductance current inner loop, 3KW photovoltaic grid connected system, no boost circuit, incremental conductance method, inverter bridge control maximum power