DADiSP Controls Functions
DADiSP Controls functions
DADiSP Controls includes over 40 standalone functions. The following table is a summary of each function.
Analysis and simulation
| bode | Produce Bode magnitude and phase plots. |
| nyquist | Generate Nyquist Plot. |
| fstats | Calculate frequency response characteristics from Bode plot. |
| dbode | Generate Bode plots for a discrete system. |
| dnyquist | Produce Nyquist plot for a discrete system. |
| dfstats | Calculate frequency response characteristics from discrete Bode plot. |
| setfunit | Set units to be used by frequency response macros. |
| pzmap | Plot pole and zero locations in the complex plane. |
| rtlocus | Generate Root Locus Plot. |
| pzgrid | Overlay a grid of constant natural frequencies and damping ratios. |
| dpzmap | Plot location of the poles and zeros of a discrete system. |
| drtlocus | Generate Root Locus Plot for a discrete system. |
| dpzgrid | Overlay a grid of constant discrete natural frequencies and damping ratios. |
| cimpulse | Calculate impulse response of a continuous system. |
| cstep | Evaluate step response of a continuous system. |
| cramp | Calculate response of a continuous system to ramp input. |
| csim | Calculate response of a continuous system to specified input. |
| csiminit | Calculate response of a continuous system to specified input and initial conditions. |
| dimpulse | Calculate impulse response of a discrete system. |
| dstep | Evaluate step response of a discrete system. |
| dramp | Calculate response of a discrete system to ramp input. |
| dsim | Calculate response of a discrete system to specified input. |
| dsiminit | Calculate response of a discrete system to specified input and initial conditions. |
| tstats | Calculate performance characteristics from continuous or discrete step response plot. |
Model transformations
| connect | Produce one composite model from two smaller ones. |
| cloop | Transform open-loop model into its closed-loop equivalent. |
| cloopf | Produce closed-loop transfer fcn for a system with open-loop & feedback dynamics. |
| delay | Model a simple delay in a continuous system. |
| delay2 | Model a delay in a continuous system with a higher order approximation. |
| c2disc | Produce discrete model: take Z-transform with zero order hold of the continuous system. |
| c2dbil | Produce the bilinear discrete equivalent of a continuous system. |
| c2dback | Calculate discrete equivalent via the backward integration method. |
| c2delayY | Produce discrete model: take Z-transform with zero order hold with processing delay. |
| dcgain | Calculate DC gain of a continuous system. |
| cresolv | Produce the resolvant matrix of a continuous system. |
| d2cont | Perform inverse Z-transform with zero order hold to produce the continuous model. |
| d2cbil | Produce inverse of the bilinear transform to convert discrete model to continuous equivalent. |
| d2cback | Transform discrete transfer function to continuous equivalent via the inverse of the backward integration method. |
Off the shelf controllers
| pid | Design a proportional plus integral plus derivative controller. |
| pi | Design a proportional plus integral controller. |
| pd | Design a proportional plus derivative controller. |
| lagleadm | Design a lag or lead compensator. |
| dpid | Design a discrete proportional plus integral plus derivative controller. |
| dpi | Design a discrete proportional plus integral controller. |
| dpd | Design a discrete proportional plus derivative controller compensator. |
| dlagleadm | Design the discrete equivalent of a continuous lag or lead. |
| dsgn2ordm | Design a 2nd order continuous system. |
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