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PID
- 在工程实际中,应用最为广泛的调节器控制规律为比例、积分、微分控制,简称PID控制,又称PID调节。PID控制器问世至今已有近70年历史,它 以其结构简单、稳定性好、工作可靠、调整方便而成为工业控制的主要技术之一。-In the practical engineering, the most widely used regulator control law as the proportion, integral, differential control, PID control, also k
CF741
- 国产的优秀OP放大器(运算放大器)。一块高增益通用运算放大器电路该运算放大器具有内部相位补偿它设计在较宽的电压范围内双电源条件下工作 本电路用途广泛 能完成加减乘除积分微分对数等运算,也可用作信号发生、放大、比较、变换、整流、滤波等电路,可用于各种电子仪器设备中。-Made outstanding OP amplifier (op amp). A general-purpose high-gain op amp circuit of the operational amplifier with
STM32-PID
- PID 的PI调节控制电流在指定的 电流值,PI效果很好,不需要微分,-The PI regulator PID control current at a specified current value, PI good results, not differential,
PID
- PID控制器(比例-积分-微分控制器),由比例单元P、积分单元I和微分单元D组成[1]。通过Kp,Ki和Kd三个参数的设定-PID controller (proportional integral differential controllers), P the proportion, integral unit I and differential unit of D [1]. Through the Kp, Ki and Kd three parameters setting
PID_ALL
- 先进PID方针,包含各种PID,普通PID,抗积分饱和PID,微分先行PID控制算法,梯形积分PID,积分分离PID算法,变速积分,不完全微分PID控制算法,带死区的PID控制,步进PID控制的MATLAB仿真-Advanced PID policy, contain a variety of PID, ordinary PID, PID integral saturation resistance, differential PID control algorithm, first trape