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# bodeplot
LaTeX package to plot Bode, Nichols, and Nyquist diagrams.
Inspired by the `bodegraph` package.
Limitation: Phase plots from TF commands are wrapped between 0 and 360 degrees.
Added functionality:
- New `\BodeZPK` and `\BodeTF` commands to generate Bode plots of any transfer function given either poles, zeros, gain, and delay, or numerator and denominator coefficients and delay
- Support for unstable poles and zeros.
- Support for complex poles and zeros.
- Support for general stable and unstable second order transfer functions.
- Support for both `gnuplot` (default) and `pgfplots` (package option `pgf`).
- Support for linear and asymptotic approximation of magnitude and phase plots of any transfer function given poles, zeros, and gain.
Main Bode/Nyquist/Nichols commands:
Given Zeros, Poles, Gain, and Delay (Bode plots support asymptotic and linear approximation for systems without delays):
- `\BodeZPK[object1/type1/{options1},object2/type2/{options2},...]{z/{zeros},p/{poles},k/gain,d/delay}{min-frequency}{max-frequency}`
- `\NicholsZPK[plot/{options},axes/{options}]{z/{zeros},p/{poles},k/gain,d/delay}{min-frequency}{max-frequency}`
- `\NyquistZPK[plot/{options},axes/{options}]{z/{zeros},p/{poles},k/gain,d/delay}{min-frequency}{max-frequency}`
Given Numerator and denominator coefficients and delay (does not support approximation yet):
- `\BodeTF[object1/type1/{options1},object2/type2/{options2},...]{num/{coeff},den/{coeff},d/delay}{min-frequency}{max-frequency}`
- `\NicholsTF[plot/{options},axes/{options}]{num/{coeff},den/{coeff},d/delay}`
- `\NyquistTF[plot/{options},axes/{options}]{num/{coeff},den/{coeff},d/delay}`
Other new environments and associated commands:
- `BodePlot` environment
- `\addBodeZPKPlots[{approximation1/{plot-options1}},{approximation2/{plot-options2}},...]{plot-type (phase or magnitude)}{z/{zeros},p/{poles},k/gain,d/delay}`
- `\addBodeTFPlot[plot-options]{plot-type (phase or magnitude)}{num/{coeff},den/{coeff},d/delay}`
- `\addBodeComponentPlot[plot-options]{basic_component_plot_command}`
- Basic component plot commands: ***(append `Lin` to get linear approximation and `Asymp` to get asymptotic approximation)*** ***(change `Pole` to `Zero` to get inverse plots)*** ***(change `Mag` to `Ph` to get phase plots)***
- `\MagK{a}` - Pure gain, G(s) = a.
- `\MagPole{a}{b}` - Single pole at s = a+bi, G(s) = 1/(s - a-bi).
- `\MagCSPoles{z}{w}` - Cannonical Second order system, G(s) = 1/(s^2 + 2zws + w^2).
- `\MagSOPoles{a}{b}` - Second Order system, G(s) = 1/(s^2 + as + b).
- `\MagDel{T}` - Pure delay, G(s) = exp(-Ts) (does not admit asymptotic approximation).
- `NicholsChart` environment
- `\addNicholsZPKChart[plot-options]{z/{zeros},p/{poles},k/gain,d/delay}`
- `\addNicholsTFChart[plot-options]{num/{coeff},den/{coeff},d/delay}`
- `NyquistPlot` environment
- `\addNyquistZPKPlot[plot-options]{z/{zeros},p/{poles},k/gain,d/delay}`
- `\addNyquistTFPlot[plot-options]{num/{coeff},den/{coeff},d/delay}`
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