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authorKarl Berry <karl@freefriends.org>2009-12-12 01:04:00 +0000
committerKarl Berry <karl@freefriends.org>2009-12-12 01:04:00 +0000
commit765461ffc288b6d5d2b0c1d96c539a20b2cc93f2 (patch)
treed9c5efbe098c5e5ca68eab2479367d136ab9c186 /Master/texmf-dist/doc/generic
parentd69c8e6f02c8ccddda5d0e298d8ef6dd9e3810c0 (diff)
new pstricks package pst-am (8dec09)
git-svn-id: svn://tug.org/texlive/trunk@16371 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Master/texmf-dist/doc/generic')
-rw-r--r--Master/texmf-dist/doc/generic/pst-am/Changes6
-rw-r--r--Master/texmf-dist/doc/generic/pst-am/README10
-rw-r--r--Master/texmf-dist/doc/generic/pst-am/pst-am-doc.bib181
-rw-r--r--Master/texmf-dist/doc/generic/pst-am/pst-am-doc.pdfbin0 -> 884173 bytes
-rw-r--r--Master/texmf-dist/doc/generic/pst-am/pst-am-doc.tex525
5 files changed, 722 insertions, 0 deletions
diff --git a/Master/texmf-dist/doc/generic/pst-am/Changes b/Master/texmf-dist/doc/generic/pst-am/Changes
new file mode 100644
index 00000000000..6675cd48a62
--- /dev/null
+++ b/Master/texmf-dist/doc/generic/pst-am/Changes
@@ -0,0 +1,6 @@
+pst-am.sty --------
+v. 1.01 2009-12-08 initial CTAN version
+
+
+pst-am-doc.tex --------
+2009-12-08 first documentation
diff --git a/Master/texmf-dist/doc/generic/pst-am/README b/Master/texmf-dist/doc/generic/pst-am/README
new file mode 100644
index 00000000000..2bfea5b1bbb
--- /dev/null
+++ b/Master/texmf-dist/doc/generic/pst-am/README
@@ -0,0 +1,10 @@
+pst-am: modulation and demodulation
+
+pst-am.sty - The LaTeX file
+pst-am-doc.pdf - The documentation
+pst-am-doc.tex - The documentation, source
+pst-am-doc.bib - The documentation, bibfile
+
+
+--
+Herbert Voss 2012-12-08
diff --git a/Master/texmf-dist/doc/generic/pst-am/pst-am-doc.bib b/Master/texmf-dist/doc/generic/pst-am/pst-am-doc.bib
new file mode 100644
index 00000000000..cb8f1f164c5
--- /dev/null
+++ b/Master/texmf-dist/doc/generic/pst-am/pst-am-doc.bib
@@ -0,0 +1,181 @@
+%% -*-bibtex-*-
+@STRING{tugboat = {TUGboat} }
+@STRING{beiprogramm = {{\TeX}-Beiprogramm} }
+@STRING{bretter = {Bretter, die die Welt bedeuten} }
+@STRING{dtk = {{D}ie {\TeX}nische {K}om{\"o}die} }
+@STRING{editorial = {Editorial} }
+@STRING{fremdebuehne = {Von fremden B{\"u}hnen} }
+@STRING{fundus = {Aus dem Fundus} }
+@STRING{hinterbuehne = {Hinter der B{\"u}hne} }
+@STRING{leserbrief = {Leserbrief(e)} }
+@STRING{magazin = {Magazin} }
+@STRING{rezension = {Rezensionen} }
+@STRING{schonimmer = {Was Sie schon immer {\"u}ber {\TeX} wissen wollten \dots} }
+@STRING{theaterkasse = {Von der Theaterkasse} }
+@STRING{theatertage = {{\TeX}-Theatertage} }
+
+@Book{PSTricks2,
+ author = {Herbert Vo\ss},
+ title = {{\PST} {G}rafik f\"ur \TeX{} und \LaTeX},
+ edition = {fifth},
+ publisher = {DANTE -- Lob.media},
+ year = {2008},
+ address = {Heidelberg/Hamburg}
+}
+
+@Book{companion04,
+ author = {Frank Mittelbach and Michel Goosens et al},
+ title = {The {\LaTeX} {C}ompanion},
+ edition = {second},
+ publisher = {Addison-Wesley Publishing Company},
+ year = {2004},
+ address = {Boston}
+}
+
+@Book{begleiter05,
+ author = {Frank Mittelbach and Michel Goosens et al},
+ title = {Der {\LaTeX} {B}egleiter},
+ edition = {zweite},
+ publisher = {Pearson Education},
+ year = {2005},
+ address = {M\"unchen}
+}
+
+@Book{unbound,
+ author = {Alan Hoenig},
+ title = {\TeX{} {U}nbound: \LaTeX{} \& \TeX{} {S}trategies, {F}onts, {G}raphics, and {M}ore},
+ publisher = {Oxford University Press},
+ year = {1998},
+ address = {London}
+}
+@Article{ dtk02.2:jackson.voss:plot-funktionen,
+ author = {Laura E. Jackson and Herbert Vo{\ss}},
+ title = {Die Plot-Funktionen von {\texttt{pst-plot}}},
+ journal = dtk,
+ year = 2002,
+ volume = {2/02},
+ altvolume = 2,
+ altnumber = 14,
+ month = jun,
+ pages = {27--34},
+ annote = bretter,
+ keywords = {},
+ abstract = { Im letzten Heft wurden die mathematischen Funktionen von
+ \PS~im Zusammenhang mit dem {\LaTeX}-Paket
+ \texttt{pst-plot} zum Zeichnen von Funktionen beschrieben
+ und durch Beispiele erl{\"a}utert. In diesem Teil werden
+ die bislang nur erw{\"a}hnten Plot-Funktionen f{\"u}r
+ externe Daten behandelt. }
+}
+
+@Article{ dtk02.1:voss:mathematischen,
+ author = {Herbert Vo{\ss}},
+ title = {Die mathematischen {F}unktionen von {P}ost{S}cript},
+ journal = dtk,
+ year = 2002,
+ volume = {1/02},
+ altvolume = 1,
+ altnumber = 14,
+ month = mar,
+ pages = {},
+ annote = bretter,
+ keywords = {},
+ abstract = { \PS, faktisch genauso alt wie {\TeX}, ist im
+ Verh{\"a}ltnis dazu allgemein noch weniger bekannt, wenn es
+ darum geht zu beurteilen, was es denn nun im eigentlichen
+ Sinne ist. Au{\ss}erdem wird h{\"a}ufig vergessen, dass
+ sich mit den \PS-Funktionen viele Dinge erledigen lassen,
+ bei denen sonst auf externe Programme zur{\"u}ckgegriffen
+ wird. Dies wird im Folgenden f{\"u}r die mathematischen
+ Funktionen im Zusammenhang mit dem Paket \texttt{pst-plot}
+ gezeigt. }
+}
+
+@Book{tlgc2,
+ author = {Michel Goosens and Frank Mittelbach and Sebastian Rahtz and Denis Roegel and Herbert Vo{\ss}},
+ title = {The {\LaTeX} {G}raphics {C}ompanion},
+ publisher = {{Addison-Wesley Publishing Company}},
+ edition = second,
+ year = {2007},
+ address = {Reading, Mass.}
+}
+
+@Book{voss:chaos,
+ author = {Herbert Vo{\ss}},
+ title = {Chaos und {F}raktale selbst programmieren: von {M}andelbrotmengen {\"u}ber {F}arbmanipulationen zur perfekten Darstellung},
+ publisher = {{Franzis Verlag}},
+ year = {1994},
+ address = {Poing}
+}
+
+@Article{girou:01:,
+ author = {Denis Girou},
+ title = {Pr\'esentation de {PST}ricks},
+ journal = {Cahier {GUT}enberg},
+ year = 1994,
+ volume = {16},
+ month = apr,
+ pages = {21-70}
+}
+
+@Article{girou:02:,
+ author = {{Timothy Van} Zandt and Denis Girou},
+ title = {Inside {PST}ricks},
+ journal = TUGboat,
+ year = 1994,
+ volume = {15},
+ month = sep,
+ pages = {239-246}
+}
+
+@Book{PostScript,
+ Author = {Kollock, Nikolai G.},
+ Title = {PostScript richtig eingesetzt: vom {K}onzept zum
+ praktischen {E}insatz},
+ Publisher = {IWT},
+ Address = {Vaterstetten},
+ year = 1989,
+}
+
+@Manual{pstricks,
+ Title = {PSTricks - {\PS} macros for generic {\TeX}},
+ Author = {{Timothy Van} Zandt},
+ Organization = {},
+ Address = {\url{http://www.tug.org/application/PSTricks}},
+ Note = {},
+ year = 1993
+}
+
+@Manual{pst-plot,
+ Title = {\texttt{pst-plot}: Plotting two dimensional functions and data},
+ Author = {{Timothy Van} Zandt},
+ Organization = {},
+ Address = {\url{CTAN:graphics/pstricks/generic/pst-plot.tex}},
+ Note = {},
+ year = 1999
+}
+
+@Manual{multido,
+ Title = {\texttt{multido.tex} - a loop macro, that supports fixed-point addition},
+ Author = {{Timothy Van} Zandt},
+ Organization = {},
+ Address = {\url{CTAN:/graphics/pstricks/generic/multido.tex}},
+ Note = {},
+ year = 1997
+}
+
+@MISC{xkeyval,
+ author = {Hendri Adriaens},
+ title = {xkeyval package},
+ howpublished = {\url{CTAN:/macros/latex/contrib/xkeyval}},
+ year = 2004
+}
+
+@book{voss06,
+ Title = {Mathematiksatz in \LaTeX{}},
+ Author = {Herbert Vo\ss},
+ Publisher = {Lehmanns Media/DANTE},
+ Edition= {first},
+ Address= {Berlin/Heidelberg},
+ Year= {2009},
+}
diff --git a/Master/texmf-dist/doc/generic/pst-am/pst-am-doc.pdf b/Master/texmf-dist/doc/generic/pst-am/pst-am-doc.pdf
new file mode 100644
index 00000000000..e34bbf1c14a
--- /dev/null
+++ b/Master/texmf-dist/doc/generic/pst-am/pst-am-doc.pdf
Binary files differ
diff --git a/Master/texmf-dist/doc/generic/pst-am/pst-am-doc.tex b/Master/texmf-dist/doc/generic/pst-am/pst-am-doc.tex
new file mode 100644
index 00000000000..5e512f7652d
--- /dev/null
+++ b/Master/texmf-dist/doc/generic/pst-am/pst-am-doc.tex
@@ -0,0 +1,525 @@
+%% $Id: pst-am-doc.tex 166 2009-12-08 14:48:53Z herbert $
+\documentclass[11pt,english,BCOR10mm,DIV12,bibliography=totoc,parskip=false,smallheadings
+ headexclude,footexclude,oneside]{pst-doc}
+\usepackage[latin9]{inputenc}
+\usepackage{pst-am}
+\let\pstAmFV\fileversion
+%
+\begin{filecontents*}{pst-am-doc.eps}
+%!PS
+%%BoundingBox: 18 532 572 668
+%%CreationDate: Mon Apr 30 09:25:21 2007
+%%EndComments
+% (c) P. Kleiweg 1997
+% adaptation plagiat de ManuelLuque 05/06/2006
+% avec le concours du groupe Syracuse
+%/Font /Utopia-Regular def
+/Font /Times-Roman def
+/warp { % x y 1 index => x y x
+1 index % position horizontale du point courant X
+periode N mul mul
+cos 2 add
+mul % hauteur finale Y
+} bind def
+/warpmove{
+2 index {
+newpath
+} if
+warp moveto
+pop false
+} bind def
+
+/warpline {
+warp
+lineto
+} bind def
+
+/warpcurve {
+6 2 roll warp
+6 2 roll warp
+6 2 roll warp
+curveto
+} bind def
+
+/warpit {
+true
+{ warpmove } { warpline } { warpcurve } { closepath } pathforall
+pop
+} bind def
+
+297 600 translate
+
+% taille de des caractères
+Font findfont 40 scalefont setfont
+
+/warptxt (MODULATION D'AMPLITUDE) def % texte à déformer
+/warpwidth warptxt stringwidth pop def % largeur horizontale du texte
+/warphalf warpwidth 2 div def % demi-largeur horizontale
+
+/periode {360 warpwidth div} bind def % une sinusoïde
+/N 3 def % ondulation sur 3 périodes
+
+%% modif 1
+%% sinusoïde du haut
+%% 2 sinusoïdes clippées
+warphalf neg 20 moveto
+warphalf neg 1 warphalf { 20 lineto } for % les 2 sinusoïdes
+warphalf -1 warphalf neg { 22 lineto } for
+closepath
+
+%% modif 2
+%% sinusoïde du bas
+%% 2 sinusoïdes clippées
+warphalf neg -15 moveto
+warphalf neg 1 warphalf { -15 lineto } for % les 2 sinusoïdes
+warphalf -1 warphalf neg { -17 lineto } for
+closepath
+
+%% modif 3
+warphalf neg -10 moveto
+warptxt true charpath
+
+%% c'est parti !
+warpit
+gsave
+0 0 1 setrgbcolor
+fill
+grestore
+0 0 0.5 setrgbcolor
+stroke
+\end{filecontents*}
+
+\def\bgImage{\includegraphics[scale=0.66]{pst-am-doc.eps}}
+
+\let\SaveFV\fileversion
+\def\masse{%
+ \psframe[fillstyle=vlines,linestyle=none,hatchwidth=0.5\pslinewidth](-0.5,-0.7)(0.5,-0.5)
+ \psline[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,-0.5)
+ \psline(0,0)(0,-0.5)}
+\def\noeud(#1){\qdisk(#1){1.5pt}}
+%
+\def\selfA{\psframe[linestyle=none,fillstyle=solid](-1,-.2)(1,0.4)
+ \multido{\nS=-0.75+0.50}{4}{%
+ \psset{dimen=middle}
+ \rput(\nS,0){\pscurve[linewidth=1.5\pslinewidth](-0.25,0)(0,0.4)(0.25,0)}}}
+\def\selfB{\psframe[linestyle=none,fillstyle=solid](-0.75,-.1)(0.75,0.4)
+ \multido{\nS=-0.50+0.50}{3}{%
+ \psset{dimen=middle}
+ \rput(\nS,0){\pscurve[linewidth=1.5\pslinewidth](-0.25,0)(0,0.4)(0.25,0)}}}
+\def\GBF{\pscircle[fillstyle=solid,linewidth=1.5\pslinewidth]{0.5}}
+\def\resistor{\psframe[fillstyle=solid,linewidth=1.5\pslinewidth](-0.5,-0.2)(0.5,0.2)}
+\def\condensateur{%
+ \psframe[linestyle=none,fillstyle=solid](-0.15,-0.5)(0.15,0.5)
+ \psline[linewidth=1.5\pslinewidth](-0.15,-0.5)(-0.15,0.5)
+ \psline[linewidth=1.5\pslinewidth](0.15,-0.5)(0.15,0.5)}
+\def\masse{%
+ \psframe[fillstyle=vlines,linestyle=none,hatchwidth=0.5\pslinewidth](-0.5,-0.7)(0.5,-0.5)
+ \psline[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,-0.5)
+ \psline(0,0)(0,-0.5)}
+\def\diode{%
+ \psline(0,0.25)(0.5,0)(0,-0.25)(0,0.25)
+ \psline(0.5,0.25)(0.5,-0.25)
+ \psline(-0.5,0)(1,0)}
+\def\circput(#1)(#2)#3{%
+\pcline(#2)(#1)%
+\lput*{:U}{#3}}
+\def\noeud(#1){\qdisk(#1){1.5pt}}
+
+\lstset{explpreset={pos=t,width=-99pt,overhang=0pt,hsep=\columnsep,vsep=\bigskipamount,rframe={}}}
+\psset{Centering=true}
+\begin{document}
+
+\title{\texttt{pst-am}}
+\subtitle{A PSTricks package for drawing Modulations and Demodulations; v.\pstAmFV}
+\author{Manuel Luque \\Herbert Vo\ss}
+%\docauthor{Herbert Vo\ss}
+\date{\today}
+\maketitle
+
+\tableofcontents
+
+\clearpage
+
+\psset{title={Luc\'ee Auguste Fresnel}}
+\begin{abstract}
+\noindent
+\LPack{pst-am} allows the simulation of modulated and demodulated
+amplitude of the radio waves. You can choose several possible parameters
+and plot the following curves:
+\begin{compactitem}
+\item modulated signals;
+\item wave carrier;
+\item signal modulation;
+\item signal recovering;
+\item signal demodulation.
+\end{compactitem}
+
+The main command is called \Lcs{psAM}\OptArgs\ and has different options, including allowing
+view table of the used values, are detailed thereafter.
+The macro was written directly in PostScript\footnote{Original idea by
+Peter Kleiweg and inspired by discussions on \url{http://melusine.eu.org/cgi-bin/mailman/listinfo/syracuse}}.
+
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,timeDiv=2e-4,SignalRedresse,SignalDemodule,
+ voltDivY2=0.5,R=4700]
+\end{LTXexample}
+\end{abstract}
+
+
+\clearpage
+\section{Introduction}
+\subsection{Example of a modulation}
+\begin{center}
+\begin{pspicture}(-5,-1)(5,7)
+\psline(-5,0)(5,0)\psline(-5,5)(-1,5)\psline(-2,4)(-1,4)
+\pnode(-5,5){E2}\noeud(E2)
+\pnode(-2,4){E1}\noeud(E1)
+\psline[arrowinset=0,arrowscale=2](1,4.5)(3,4.5)
+\psframe[linewidth=1.5\pslinewidth](-1,3.5)(1,5.5)
+\rput(0,4.5){\Huge\sffamily X}
+\uput[270](0,5.5){\sffamily AD633}
+\pnode(-5,0){M1}\pnode(-2,0){M2}
+\pnode(0,0){O}\noeud(O)\noeud(M1)\noeud(M2)
+\rput(O){\masse}
+\uput[0](-1,5){1}
+\uput[0](-1,4){3}
+\uput[180](1,4.5){7}
+\psset{linewidth=0.5\pslinewidth}
+\psline{->}(-5,0.1)(-5,4.9)
+\uput[0](-5,2.5){$u_p$}
+\psline{->}(-2,0.1)(-2,3.9)
+\uput[0](-2,2){$u_m$}
+\psline{->}(2,0.1)(2,4.4)
+\uput[0](2,2.25){$u_s$}
+\uput[0](3,4.5){\psscalebox{0.2}{\psAM[SignalModule,enveloppe,frequencePorteuse=1e4,
+ voltDivY2=0.5,timeDiv=5e-4,linewidth=2\pslinewidth]}}
+\uput[l](-2,4){\psscalebox{0.2}{\psAM[SignalModulant,timeDiv=5e-4,linewidth=5\pslinewidth]}}
+\uput[l](-5,5){\psscalebox{0.2}{\psAM[SignalPorteuse,timeDiv=2e-4,
+ frequencePorteuse=1e4,linewidth=5\pslinewidth]}}
+%\psgrid
+\end{pspicture}
+\end{center}
+\begin{compactitem}
+ \item l'onde \textbf{porteuse}, onde sinusoïdale de haute fréquence(H.F.) et
+ d'amplitude constante.
+
+ Elle est produite par l'oscillateur de l'émetteur :
+ \[
+ u_p(t)=U_p\cos2\pi F_p t
+ \]
+ \item \textbf{le signal modulant}(signal B.F. à transmettre), considéré comme une onde sinusoïdale
+ de la forme :
+ \[
+ u_m(t)=U_m\cos2\pi F_m t + U_0
+ \]
+\begin{compactitem}
+ \item Le premier terme $u_m(t)=U_m\cos2\pi F_m t$ représente le signal à
+ transmettre.
+ \item $U_0$ est la tension de décalage ou \textit{offset}.
+\end{compactitem}
+
+\end{compactitem}
+Un circuit électronique, appelé \textbf{multiplieur}, donne en sortie une
+tension :
+\[
+ u_s(t)=k\times u_p(t)\times u_m(t)
+\]
+La tension obtenue à la sortie est de la forme :
+\[
+u_s=k.U_p\cos2\pi F_p t.(U_m\cos2\pi F_m t+U_0)
+\]
+Cette expression est mise sous la forme :
+\[
+u_s(t)=A(1+m\cos2\pi F_m t)\cos2\pi F_p t
+\]
+avec :
+\begin{itemize}
+ \item $A=kU_0.U_p$ ;
+ \item $m=\displaystyle\frac{U_m}{U_0}$ : \textbf{taux de modulation}
+\end{itemize}
+
+\subsection{Schéma de principe du montage de la démodulation}
+\begin{center}
+\begin{pspicture}(-1,-1)(16,6)
+\pnode(-1,4){A1}
+\pnode(-0.5,4){A2}
+\pnode(0,4){A3}
+\pnode(-1,2){B1}
+\pnode(-0.5,2){B2}
+\pnode(0,2){B3}
+\pnode(-0.5,0){M1}
+\pnode(2,4){C1}
+\pnode(2,3){C2}
+\pnode(1.4,2){C3}
+\pnode(4,2){C4}
+\pnode(4,3.4){C5}
+\pnode(1.4,0){C6}
+\pnode(3.4,3.4){S1}
+\pnode(6,3.4){D1}
+\pnode(7,3.4){D2}
+\pnode(6,0){D3}
+\pnode(7,0){D4}
+\pnode(9,3.4){D5}
+\pnode(11,3.4){E1}
+\pnode(11,4.4){E2}
+\pnode(13.6,4.4){E3}
+\pnode(11,2.4){E10}
+\pnode(11.6,2.4){E9}
+\pnode(11,0){E11}
+\pnode(13.6,3){E4}
+\pnode(13.6,2.6){E7}
+\pnode(13.6,0){E12}
+\pnode(14.4,3){E5}
+\pnode(11.6,3.4){E8}
+\pnode(14.4,2.6){E6}
+\pnode(14.4,3){E5}
+\pnode(13,3){S2}
+\psframe[linewidth=2\pslinewidth](2,2.8)(3.4,4.2)
+\psframe[linewidth=2\pslinewidth](11.6,2.2)(13,3.6)
+\psline(5,3)(5,3.8)(5.6,3.4)(5,3)
+\psline(5.6,3)(5.6,3.8)
+\psline(14.4,2.4)(14.4,3.2)(14.6,3.2)(15,3.4)(15,2.2)(14.6,2.4)(14.4,2.4)
+\psline(14.6,2.4)(14.6,3.2)
+\psline(-2,0)(14,0)
+\circput(A1)(B1){\selfA}
+\circput(A3)(B3){\condensateur}
+\psline(A1)(C1)
+\noeud(A1)
+\noeud(B1)
+\noeud(B3)
+\noeud(A3)
+\noeud(A2)
+\noeud(M1)
+\noeud(C5)
+\noeud(D1)
+\noeud(D3)
+\noeud(D2)
+\noeud(D4)
+\noeud(D5)
+\noeud(E1)
+\noeud(E10)
+\noeud(C6)
+\psline(A2)(-0.5,6.4)
+\psline(-0.8,6.2)(-0.5,6)(-0.2,6.4)
+\noeud(E11)
+\noeud(E4)
+\noeud(E7)
+\noeud(E12)
+\psline(B1)(B3)
+\psline(B2)(M1)
+\psline(C3)(1.4,3)(C2)
+\psline(C3)(C4)(C5)
+\psline(S1)(E8)
+\psline(S2)(E5)
+\psline(E6)(E5)
+\psline(E6)(E7)(E12)
+\psline(E9)(E10)(E11)
+\psline(E1)(E2)(E3)(E4)(E5)
+\circput(C3)(C6){\resistor}
+\circput(C3)(C4){\resistor}
+\circput(D1)(D3){\resistor}
+\circput(E2)(E3){\resistor}
+\circput(D5)(E1){\resistor}
+\circput(D2)(D4){\condensateur}
+\circput(D2)(D5){\condensateur}
+\psline{->}(-0.4,2.4)(0.4,3.6)
+\psline[linestyle=dashed](1,-0.5)(1,6)
+\psline[linestyle=dashed](4.5,-0.5)(4.5,6)
+\psline[linestyle=dashed](9,-0.5)(9,6)
+\psline[linestyle=dashed](14,-0.5)(14,6)
+%\uput[180](-1.3,3){L}
+%\uput[0](0.4,3){C}
+\uput[90](5.3,3.6){D}
+\uput[180](5.8,1.65){R}
+\uput[0](7.4,1.65){C}
+\uput[90](8,3.8){C$'$}
+\rput(-0.5,-0.5){$\underbrace{\rule{3cm}{0cm}}$}
+\uput[90](-0.5,-1.2){réception-filtrage}
+\rput(2.75,-0.5){$\underbrace{\rule{3.5cm}{0cm}}$}
+\uput[90](2.75,-1.2){préamplification}
+\rput(6.75,-0.5){$\underbrace{\rule{4.5cm}{0cm}}$}
+\uput[90](6.75,-1.2){démodulation}
+\rput(11.5,-0.5){$\underbrace{\rule{5cm}{0cm}}$}
+\uput[90](11.5,-1.2){amplification}
+\pspolygon(2.2,3.6)(2.2,3.8)(2.4,3.7)\uput[0](2.4,3.7){$\infty$}
+\pspolygon(11.8,3)(11.8,3.2)(12,3.1)\uput[0](12,3.1){$\infty$}
+\rput(6.9,5.2){\psscalebox{0.2}{\psAM[SignalModulant,SignalRedresse,
+ SignalDemodule,timeDiv=2e-4,frequencePorteuse=2e4,voltDivY2=0.5,traceU]}}
+\rput(9,5.2){\psscalebox{0.2}{\psAM[SignalModulant,SignalFinal,
+ voltDivY2=0.5,frequencePorteuse=4e4,R=4.7e3]}}
+%\psgrid
+\end{pspicture}
+\end{center}
+
+
+\section{Optional arguments}
+
+\begin{center}
+\begin{tabularx}{\linewidth}{@{} lc>{\ttfamily}c X@{}}\toprule
+ \emph{Name} & \emph{type} & \emph{default} & \emph{description}\\\toprule
+ \Lkeyword{Up} &number &3.5 & carrier amplitude in V \\
+ \Lkeyword{Um} &number &1 & smodulated ignal amplitude in V\\
+ \Lkeyword{Fp} &number &2e4 & frequency of carrier wave in Hz\\
+ \Lkeyword{Fm} &number &1e3 & frequency of modulated signal in Hz\\
+ \Lkeyword{U0} &number &2 & offset in V\\
+ \Lkeyword{R} &number &3.3e3 & resistor in $\Omega$\\
+ \Lkeyword{C} &number &3.9e-8 & capacitor in F\\
+ \Lkeyword{timeDiv} &number &2e-4 & time base in s/div\\
+ \Lkeyword{voltDivY1} &number &1 & coefficient for the amplification 1 in V/div\\
+ \Lkeyword{voltDivY2} &number &1 & coefficient for the amplification 2 en V/div\\\midrule
+ \Lkeyword{SignalModulant} &boolean &false & trace of signal modulant (curve 1)\\
+ \Lkeyword{SignalModule} &boolean &false & trace of signal module (curve 2)\\
+ \Lkeyword{SignalPorteuse} &boolean &false & trace of signal module (curve 2)\\
+ \Lkeyword{SignalRedresse} &boolean &false & trace of signal redressé (curve 2)\\
+ \Lkeyword{SignalDemodule} &boolean &false & trace of signal demodulte (curve 2)\\
+ \Lkeyword{XY} &boolean &false & positionne l'écran en mode XY\\
+ \Lkeyword{traceU} &boolean &false & trace la ligne de décalage $U_0$\\
+ \Lkeyword{UMandUm} &boolean &false & pour permettre le calcul de $m$\\\midrule
+ \Lkeyword{values} &boolean &false & values as a tabular under the image\\
+ \Lkeyword{BW} &boolean &false & output curves in black on white\\
+ \Lkeyword{Centering} &boolean &false & image and optional values are centered\\\bottomrule
+ \Lkeyword{title} &text &\{\} & a title for the lower line\\\bottomrule
+\end{tabularx}
+\end{center}
+
+\newpage
+\section{Possibility of drawing the curves in black on white}
+Avec l'option \Lkeyword{BW}. Lorsqu'on souhaite afficher une courbe,
+il suffit de rajouter son nom dans la liste des options.
+
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,SignalPorteuse,Up=2.8,frequencePorteuse=1e4,values,BW]
+\end{LTXexample}
+\newpage
+
+
+\section{Le dessin de l'enveloppe}
+Avec l'option \Lkeyword{enveloppe}.
+\begin{LTXexample}[pos=t]
+\psAM[SignalModule,enveloppe,frequencePorteuse=1e4,voltDivY2=0.5,timeDiv=5e-4]
+\end{LTXexample}
+L'option \Lkeyword{UMandUm} permettra de déterminer facilement le taux de modulation.
+
+\begin{LTXexample}
+\psAM[SignalModule,enveloppe,UMandUm]
+\end{LTXexample}
+
+\newpage
+
+\section{Le signal redressé}
+Avec l'option \Lkeyword{SignalRedresse}.
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,timeDiv=1e-4,SignalRedresse,voltDivY2=0.5,values]
+\end{LTXexample}
+\newpage
+
+\section{Le signal démodulé}
+Avec l'option \Lkeyword{SignalDemodule} et, en exemple, deux possibilités en fonction du choix de la base de temps.
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,timeDiv=0.5e-4,SignalRedresse,SignalDemodule,values]
+\end{LTXexample}
+%
+%\psline[linecolor=blue,linestyle=dashed](U01)(U02)
+%\uput[l](U01){$U_0$}
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,SignalRedresse,SignalDemodule,timeDiv=2e-4,
+ frequencePorteuse=2e4,voltDivY2=0.5,values,traceU]
+\end{LTXexample}
+
+\newpage
+\section{L'influence de R et C sur la qualité de la démodulation}
+Avec les paramètres \Lkeyword{R} et \Lkeyword{C}.
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,SignalRedresse,SignalDemodule,timeDiv=2e-4,
+ frequencePorteuse=2e4,voltDivY2=0.5,R=1e4,values]
+\psline[linecolor=blue,linestyle=dashed](U01)(U02)
+\uput[l](U01){$U_0$}
+\end{LTXexample}
+
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,SignalRedresse,SignalDemodule,timeDiv=2e-4,
+ frequencePorteuse=2e4,voltDivY2=0.5,R=470,values]
+\end{LTXexample}
+
+\newpage
+\section{Suppression de la composante continue}
+Avec l'option \Lkeyword{SignalFinal}.
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,SignalFinal,timeDiv=2e-4,voltDivY2=0.5,frequencePorteuse=4e4,R=4.7e3,values]
+\end{LTXexample}
+
+\clearpage
+\section{Le phénomène de surmodulation}
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,SignalModule,timeDiv=2e-4,U0=0.5,frequencePorteuse=4e4,
+ Up=4,Um=2,voltDivY2=0.5,values]
+\end{LTXexample}
+
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,SignalRedresse,SignalDemodule,timeDiv=1e-4,U0=0.5,
+ frequencePorteuse=4e4,voltDivY2=0.2,voltDivY1=0.5]
+\end{LTXexample}
+
+\clearpage
+\section{XY mode}
+\begin{LTXexample}[pos=t]
+\psAM[XY,U0=0.5,frequencePorteuse=4e4,Up=4,Um=2,voltDivY2=0.5]
+\end{LTXexample}
+
+\begin{LTXexample}[pos=t]
+\psAM[XY,frequencePorteuse=4e4,voltDivY2=0.5,voltDivY1=1]
+\end{LTXexample}
+
+\clearpage
+\section{Deux autres exemples}
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,SignalRedresse,SignalDemodule,voltDivY2=1,voltDivY1=5,
+ timeDiv=2e-4,U0=2,R=4700,frequencePorteuse=1e4,Up=2,Um=10,values,traceU,values]
+\end{LTXexample}
+
+\begin{LTXexample}[pos=t]
+\psAM[SignalModulant,SignalRedresse,SignalDemodule,timeDiv=1e-4,U0=1.5,
+ frequencePorteuse=4e4,Up=3,voltDivY2=0.2,traceU,values]
+\end{LTXexample}
+
+\newpage
+\section{Les styles}
+À chaque courbe est associée un style, ce qui permet de les différencier.
+Le style du tracé d'une courbe pourra donc être modifié, simplement, en redéfinissant
+le \Lcs{newpstyle} associé à la courbe avant son tracé.
+
+De même, il sera possible de modifier l'allure de l'écran en redéfinissant les styles associés :
+\begin{LTXexample}[pos=t]
+\newpsstyle{signalModulant}{plotpoints=1000,linecolor=green,linewidth=2\pslinewidth}
+\newpsstyle{signalPorteuse}{plotpoints=2000,linecolor=blue}
+\newpsstyle{signalRedresse}{plotpoints=2000,linecolor=Bleu}
+\newpsstyle{signalDemodule}{plotpoints=4000,linecolor=red}
+\newpsstyle{signalModule}{plotpoints=4000,linecolor=blue}
+\newpsstyle{XY}{plotpoints=4000,linecolor=blue}
+\newpsstyle{cadre}{framearc=0.05,linecolor=black}
+\newpsstyle{screen}{fillstyle=solid,fillcolor=yellow!70!white!30}
+\end{LTXexample}
+
+
+\clearpage
+\section{List of all optional arguments for \texttt{pst-am}}
+
+\xkvview{family=pst-am,columns={key,type,default}}
+
+
+
+
+
+\nocite{*}
+\bgroup
+\RaggedRight
+\bibliographystyle{plain}
+\bibliography{pst-am-doc}
+\egroup
+
+\printindex
+
+
+
+
+\end{document}