A Study on the Characteristic of P. I. D Control with M. L. P Communication in GSIKGL

GSIKGL M. L. P 통신에 의한 P. I. D 제어 특성에 관한 연구

An operating principle of PID module was implemented using the load, where the integer in a PID measuring derivate equation were valid in the ranges of 500-9000, 60-1000, and 000-9000, for P, I and D, respectively. A load operation program was designed to investigate the PID theory and its realization process. With it, it was examined the process that the current PV tracts the target SV, By investigating the time when the PV approaches the SV and the rate at which the EV is varied, it is revealed that 1) larger (or Smaller) Kp leads to faster (or slower) approaching of PV to SV, 2) smaller (or larger) Ti results in faster (or slower) approaching of PV to SV, 3) larger (or smaller)$T_d$ causes smaller (or Larger) rate variation in the EV. These observation were found to coincide with those of PID operating characteristics. Though this implementation, it is known for the widespread use of PID module that an improvement should be made in the error of temperature. This, meanwhile, implies that the computational time of conventional manipulation valve must be faster than 0.1 second. It is demanded that an improved PID module including the A/D and D/A module, in itself must be used in conjunction with PLC.