zyuanlbj 2020-03-27 10:21:49
Description: PID, which is proportional, integral and derivative, is a very common control algorithm. In engineering practice, the most widely used regulator control law is proportional, integral, differential control, referred to as PID control, also known as PID regulation. It has become one of the main technologies of industrial control because of its simple structure, good stability, reliable operation and convenient adjustment.

Description: Incremental PID complete routine, control fan rotation (analog refrigeration device), make temperature control in a certain range.

Description: The program uses PID to realize the simple design of temperature controller, and the temperature control range is 30-60

Description: this is a pid control code Eg, from the code ,you can learn the basic pid control.

Description: Temperature measurement with PT100, PID regulation, very useful

Description: The matlab code of automatic parking, available for personal test, has been adjusted, and fuzzy control is used
Description: On replacing PID controller with ANN controller for DC motor position control

Description: In process control, PID controller (also called PID regulator) which is controlled by proportion (P), integral (I) and differential (d) of deviation is the most widely used automatic controller. It has the advantages of simple principle, easy implementation, wide application, independent control parameters and simple selection of parameters. Moreover, it can be proved in theory that PID controller is an optimal control for typical process control objects - "first order lag + pure lag" and "second order lag + pure lag".

Description: PID learning, PID controller parameter tuning is the core content of control system design. It determines the proportional coefficient, integral time and differential time of PID controller according to the characteristics of controlled process. There are many methods of PID controller parameter tuning, which can be summarized into two categories: one is theoretical calculation tuning method. It is mainly based on the mathematical model of the system, through theoretical calculation to determine the controller parameters.

Description: The principle, mathematical model, vector control, modeling simulation and result analysis of intelligent PID control for PMSM.

Description: PID parameter optimization based on particle swarm optimization (matla program). Zip
Zcl10 2020-02-17 11:13:26
Description: mpc5644a communication algorithm
emreemre 2020-02-16 04:04:04
Description: PID PARTICLE SWAR M OPTIMA
emreemre 2020-02-16 03:41:17
Description: BOOST CONVERTER SIMULATION

Description: Pid algorithm, very simple pid algorithm, mainly for learning and familiar with c/c++ language.
hnren@qq.com 2020-02-04 14:15:41
Description: PID regulation C source PID control details about PID regulation

Description: By using STM32, the PID speed and position of stepping motor are adjusted.
muzili1763598559 2020-01-07 17:18:26
Description: Based on stm32f407 single chip microcomputer and FreeRTOS system, the PID control of motor is realized by keil 5, and the output control of fixed angle is realized
ischenchao 2020-01-05 19:34:45
Description: Good PID teaching documents

Description: This compression package includes two large-scale Simulink full drive off-road electric vehicle models, papers and parameter documents; it can realize fuzzy PID simulation, simulation comparison of new driving structure, simulation of yaw and forward tilt of 11 DOF vehicle model, realize automatic righting, and optimize the righting speed and stability

Description: It's just a program that can realize motor PID closed-loop

Description: a good material to study fuzzu_pid
ThiagoMesi 2019-12-24 09:44:21
Description: PID track control + PID expert system track control
CUG喆 2019-12-22 16:09:01
Description: The car system uses stm32f103c8t6 as the main control chip, the sensor uses SR04 ultrasonic module and 9-way infrared module, and uses PID controller to control the car running

Description: nogf f f d dff d s sd dsd sd df d d d d d d d d d d