Ibrahim
this code on not finished, but almost 80% done, the code based on the study of :---------------------------------------"Performance Analysis of DownlinkPower Control in CDMA Systems"Soumya Das, Sachin Ganu, Natalia Rivera, Ritabrata Royemail: fsoumya, sachin, nrivera,...
Platforms: Matlab
License: Freeware | Size: 122.88 KB | Download (49): Power Control in CDMA Download |
PITAN(NUM,DEN,W) plots the stability boundary locus L(KP,KI,W) in the (KP,KI)-plane for an LTI system with transfer function defined by its NUM, DEN coefficients and driven by a PI controller with transfer function, C(s)=kp+(ki/s). Frequency (W) gridding become important.The method works for open...
Platforms: Matlab
License: Freeware | Size: 10 KB | Download (51): Computation of Stabilizing PI Controllers Download |
IMAGGS(NUM,DEN) Computation of Im[G(s)]=0 of a LTI system with transfer function defined by its NUM, DEN coefficients.Examples used are form "Computation of Stabilizing PI and PID Controllers" by Nusret Tan, Ibrahim Kaya and Dereck P. Atherton.Method is from "Fast calculation of stabilizing PID...
Platforms: Matlab
License: Freeware | Size: 10 KB | Download (49): Computation of Im[G(s)]=0 Download |
PGPI(NUM,DEN,W,FI,A) plots the stability boundary locus L(KP,KI,W)in the (KP,KI)-plane for an LTI system with transfer function defined by its NUM, DEN coefficients and driven by a PI controller with transfer function, C(s)=kp+(ki/s). Frequency (W) gridding becomes important. Phase Margin, FI,...
Platforms: Matlab
License: Freeware | Size: 10 KB | Download (47): PI Control with Gain and Phase Margin Specifications Download |
SETTPI(NUM,DEN,W,P) plots the stability boundary locus L(KP,KI,W)in the (KP,KI)-plane for an LTI system with transfer function defined by its NUM, DEN coefficients and driven by a PI controller with transfer function, C(s)=kp+(ki/s). Frequency (W) gridding becomes important. For a specific...
Platforms: Matlab
License: Freeware | Size: 10 KB | Download (50): PI Control, Settling Time Download |