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diff --git a/Master/texmf-dist/doc/latex/eltex/man_en.tex b/Master/texmf-dist/doc/latex/eltex/man_en.tex new file mode 100644 index 00000000000..68b12ed85a6 --- /dev/null +++ b/Master/texmf-dist/doc/latex/eltex/man_en.tex @@ -0,0 +1,1052 @@ +\documentstyle[a4,bezier]{article} + +\input{eltex1} +\input{eltex2} + +\begin{document} +\section{The instructions for the using the macro eltex 2.0} +This is the version 2.0 of the macro \verb?eltex? for the drawing the +circuit diagrams in \LaTeX . Here is the several differences on the +comparison with the previous version. +In the version 2.0 are the circuit symbols accordingly IEC 617-1 to 11. +Here is the helpful grid for the easier placing of the circuit symbols +and also the commands for the circuit symbols are different +then in the previous version. +Old and new version are not compatible. +The reason for it is that in the praxis the commands had many +parameters and the labels with the fixed coordinates mostly had to be +placed in the different place in the drawing. The new macro +contains some frequently used symbols "two times" +with the shorter and longer leads. This is time saving when you draw +the circuit diagram. +When you have only small area there is also the symbol with shorter +lead. The circuit symbols were created on the actual use +for the making the education materials in the communication technics, +circuit theory and electronics area. The size of macro is 100kB. +Not to occupy many RAM during the compilation, the +circuit symbols are distributed into several files eltex1 ... eltex7 +accordingly the area of interest. +So you can use only several files and not all files. + +This principle of the drawing the circuit diagrams is not comfortable, +it would be better to create some interactive graphical editor with the +saving the (eltex) commands to the file. + + + + +\section{The description of the commands} +\subsection{Basic} +This circuit symbols are contained in macro \verb?\eltex1? \\ + +\noindent +\verb?\grid{x}{y}? +The command creates the grid with the step 10mm. +x - width of the picture in cm, y - height of the picture in cm, +only natural number. + +\subsubsection{Sources} + +\verb?\hsourcev? +Ideal voltage source horizontally oriented. + +\noindent +\verb?\hhsourcev? +Ideal voltage source with reduced leads horizontally oriented. + +\noindent +\verb?\vsourcev? +Ideal voltage source vertically oriented. + +\noindent +\verb?\vvsourcev? +Ideal voltage source with reduced leads vertically oriented. + +\noindent +\verb?\dsourcev{x}? +Ideal voltage source diagonally oriented, x - letter U - +up oriented, D - down oriented. + +\noindent +\verb?\hsourcec? +Ideal current source horizontally oriented. + +\noindent +\verb?\hhsourcec? +Ideal current source with reduced leads horizontally oriented. + +\noindent +\verb?\vsourcec? +Ideal current source vertically oriented. + +\noindent +\verb?\vvsourcec? +Ideal current source with reduced leads vertically oriented. + +\noindent +\verb?\dsourcec{x}? +Ideal current source diagonally oriented, x - letter U - +up oriented, D - down oriented. + +\subsubsection{Resistors} +\verb?\hrez{n}? +Resistor horizontally oriented. Number n determines the type of +the resistor. +0 - basic symbol +1 to 6 variable value resistor, +7 - nonlinear dependent resistor, + +\noindent +\verb?\hhrez{n}? +Resistor with reduced leads horizontally oriented. + +\noindent +\verb?\vrez{n}? +Resistor vertically oriented. + +\noindent +\verb?\vvrez{n}? +Resistor with reduced leads vertically oriented. + +\noindent +\verb?\drez{x}{n}? +Resistor diagonally oriented x - letter U - +up oriented, D - down oriented, n - number - type of the symbol, + +\noindent +\verb?\ddrez{x}{n}? +Resistor with reduced leads diagonally oriented. + + +\subsubsection{Capacitors} +\verb?\hcap{n}? +Capacitor horizontally oriented. Number n type of the symbol. +0 - basic symbol +1, 4 variable capacitor + + +\noindent +\verb?\hhcap{n}? +Capacitor with reduced leads horizontally oriented. + +\noindent +\verb?\vcap{n}? +Capacitor horizontally oriented. + +\noindent +\verb?\vvcap{n}? +Capacitor with reduced leads vertically oriented. + +\noindent +\verb?\dcap{x}{n}? +Capacitor diagonally oriented. x letter - U up +oriented, D down oriented, n number - type of the symbol. + + + +\subsubsection{Inductors} +\verb?\hturn{x}{n}? +Two turns horizontally oriented, x - letter - U position up oriented, +D down, n = 0 basic symbol, n = 1 variable inductor. + + +\noindent +\verb?\vturn{x}{n}? +Two turns vertically oriented, x - letter - L position left oriented, +R right, n = 0 basic symbol, n = 1 variable inductor. + + +\noindent +\verb?\hind{x}{n}? +Inductor horizontally oriented, x - letter - U position up, +D down, n = 0 basic symbol, n = 1 variable inductor. + +\noindent +\verb?\hhind{x}{n}? +Inductor with reduced leads horizontally oriented. + +\noindent +\verb?\vind{x}{n}? +Inductor vertically oriented, x - letter - L left position, +R right, n = 0 basic symbol, n = 1 variable inductor. + + +\noindent +\verb?\vvind{x}{n}? +Inductor with reduced leads vertically oriented. + + +\noindent +\verb?\dind{x}{y}{n}? +Inductor diagonally oriented, Bezier macro must be selected, +x - letter - U symbol up oriented, +D down, y - letter - L turns left oriented, R right, +n = 0 basic symbol, n = 1 variable inductor. + + + +\subsubsection{Cores} +\verb?\hcore{n}{x}? +Core horizontally oriented, x - letter - core type I iron F ferrite, n +- natural number - length of the symbol in mm for (I) case, +or member of the dashed lines for (F) case. + +\noindent +\verb?\vcore{n}{x}? +Core vertically oriented. + +\noindent +\verb?\dcore{x}{n}{y}? +Core diagonally oriented, x - letter - U symbol up, +D symbol down, n - natural number - length of the symbol for (I) case, +or number of the dashed lines for (F) case, +y - core type I iron F ferrite. + + +\noindent +\verb?\simb{n}? +Symbols of the mutual orientation of winding, +n number 1 $\bullet$, 2 = $\Box$, 3 = +$\triangle $. + + +\subsubsection{Switches} +\verb?\hswitch{n}? +Switch horizontally oriented, n=0 switched on, 1 off. + +\noindent +\verb?\vswitch{n}? +Switch vertically oriented, n=0 switched on, 1 off. + + +\noindent +\verb?\hoswitch{x}{n}? +Overswitch horizontally oriented x - letter - R right, +L left, n=0 switched on, 1 off. + +\noindent +\verb?\voswitch{x}{n}? +Overswitch vertically oriented , x - letter - symbol U up, +D down, n=0 switched on, 1 off. + +\subsubsection{Basic symbols} +\verb?\node? +connection of the leads. + +\noindent +\verb?\pin? +terminal + +\noindent +\verb?\hwire{n}? +wire in horizontal position, n length of the symbol in mm. + + +\noindent +\verb?\vwire{n}? +wire in vertical position, n length of the symbol in mm. + +\noindent +\verb?\dwire{x}{n}? +wire in the diagonal position, x letter - position U up , D +down, n length of the symbol. + +\noindent +\verb?\cloop{x}{y}? +Symbol for the simple loop (mesh), x letter- R clockwise orientation, +L anticlockwise, y - text- label of the loop. + +\noindent +\verb?\earth{x}? +Earth, x - letter - position D down, U up, L left, R right. + + +\noindent +\verb?\chassis{x}? +Chassis, x - letter - position D down, U up, L left, R right. + + +\noindent +\verb?\hmeasure{x}? +Measuring instrument indicating horizontally oriented, +x - text - symbol of the measured quantity. + +\noindent +\verb?\hhmeasure{x}? +Measuring instrument indicating horizontally oriented, reduced leads. + +\noindent +\verb?\vmeasure{x}? +Measuring instrument indicating vertically oriented, + +\noindent +\verb?\vvmeasure{x}? +Measuring instrument indicating vertically oriented, reduced leads. + +\noindent +\verb?\osc{x}? +Oscilloscope, x - letter - I indicating, R recording. + +\subsection{Semiconductors} + +This circuit symbols are contained in macro \verb?\eltex2? \\ + +\noindent +\verb?\graetz{x}? +Diode bridge rectifier, x - letter - R plus pole right, +L plus pole left. + +\noindent +\verb?\hdiode{x}{y}? +Diode horizontally oriented, x - letter - R cathode right, L +cathode left, y - letter - C varicap, Z Zener diode, E Esaki diode, S +Shottky diode, D LED, P photodiode, L laser diode, +blanc letter - basic symbol, + +\noindent +\verb?\vdiode{x}{y}? +Diode vertically oriented, x - letter - U cathode up, D +cathode down, y - letter - type of the diode. + +\noindent +\verb?\ddiode{x}{y}? +Diode diagonally oriented, x - letter - U symbol up, +D down, y - letter - U cathode up, D down. + + +\noindent +\verb?\htriac{x}? +Triac horizontally oriented, x - letter - gate +A left down, B left up, C right down, D right up. + + +\noindent +\verb?\vtriac{x}? +Triac vertically oriented, x - letter - gate +A left down, B left up, C right down, D right up. + + +\noindent +\verb?\hthyristor{x}{y}? +Thyristor horizontally oriented, x - letter - R cathode right, L +left, y - gate +A left down, B left up, C right down, D right up. + + +\noindent +\verb?\vthyristor{x}{y}? +Thyristor vertically oriented, x - letter - U cathode up, D +down, y - gate +A left down, B left up, C right down, D right up. + + +\noindent +\verb?\dthyristor{x}{y}{z}? +Thyristor diagonally oriented, x - letter - symbol U up, +D down, y - U cathode up D down, +z -gate +A left down, B left up, C right down, D right up. + + +\noindent +\verb?\hdiac? +Diac horizontally oriented. + +\noindent +\verb?\vdiac? +Diac vertically oriented. + +\noindent +\verb?\opto{x}? +Optocoupler horizontally oriented, x - letter - R +transistor right, L left. + +\noindent +\verb?\opamp{x}{y}? +Operational amplifier, x - letter - output R right, L left, +U up, D down, y - inverting input U up, D down, R +right, L left. + +\noindent +\verb?\ota{x}{y}{z}? +Operational transconductance amplifier, +x - letter - output R right, L left, +U up, D down, y - inverting input U up, D down, R +right, L left, z - letter Y OTA with linearising diodes, blanc - +without diodes. + +\noindent +\verb?\bota{x}{y}{z}? +Balanced output transconductance amplifier, (x z y as in OTA) + +\noindent +\verb?\bjt{x}{y}{z}{v}? +Bipolar junction transistor, x - type of the conductivity +N npn, P pnp, y - +collector emitter R right, L left, U up, D down, z - emitter position +R right, L left, U up, D down, v - symbol in the circle N no, Y yes. + + +\noindent +\verb?\jfet{x}{y}{z}{v}? +JFET, x - letter - channel N or P, y - letter +- position drain source R right, L left , U up, D down, z +- letter - position source R right, L left, U up, D down, v - +letter - circle Y yes, N (or blanc) no. + + +\noindent +\verb?\mos{x}{y}{z}{v}{w}{r}? +MOS transistor, x - letter - channel N or P, y - letter +- position drain source R right, L left , U up, D down, z +- letter - position source R right, L left, U up, D down, v - +letter - mode E enhancement, D depletion, w - number of the gates +1 or 2, r - letter - circle Y yes, N (or blanc) no. + +\noindent +\verb?\ujt{x}{y}{z}{v}? +unijunction transistor (twobase diode), +x - letter - emitter N or P, y - letter +- circuit symbol position B1 B2, R right, L left , U up, D down, z +- letter - position B1 - R right, L left, U up, D down, v - +letter - circle Y yes, N (or blanc) no. + +\noindent +\verb?\hall? +Hall's generator + +\noindent +\verb?\hmag? +Magnistor horizontally. + +\noindent +\verb?\vmag? +Magnistor vertically. + +\noindent +\verb?\hptc? +Thermistor PTC horizontally. + +\noindent +\verb?\vptc? +Thermistor PTC vertically. + +\noindent +\verb?\hntc? +Thermistor NTC horizontally. + +\noindent +\verb?\vntc? +Thermistor NTC vertically. + +\noindent +\verb?\hvar? +Varistor horizontally. + +\noindent +\verb?\var? +Varistor vertically. + +\noindent +\verb?\hprez? +Photoresistor horizontally. + +\noindent +\verb?\vprez? +Photoresistor vertically. + +\noindent +\verb?\hpelt? +Peltier's cell horizontally. + + + +\subsection{Special circuits} + +This circuit symbols are contained in macro \verb?\eltex3? \\ + +\noindent +\verb?\deltaload? Load in the delta configuration. + +\noindent +\verb?\starload? Load in the star configuration. + +\noindent +\verb?\starsource? Sources in the star configuration. + +\noindent +\verb?\neta \netb \netc \netd \nete? Elementary +twoports configurations. + +\noindent +\verb?\inet? +I network. + +\noindent +\verb?\gneta \gnetb? +Gamma network. + +\noindent +\verb?\lneta \lnetb? +L network. + +\noindent +\verb?\pineta \pinetb? +$\pi$ network. + +\noindent +\verb?\tneta \tnetb? +T network. + +\noindent +\verb?\xnet{n}? +X network, n - number - 1 general impedances, 2 +symmetrical X network. + +\noindent +\verb?\bhnet? +Bridget H network. + +\noindent +\verb?\hnet? +H network. + +\noindent +\verb?\btnet? +Bridget T network. + +\noindent +\verb?\ttnet? +Double T network. + +\noindent +\verb?\gyrator? +Gyrator. + +\noindent +\verb?\unistor{x}? +Unistor, x - letter - orientation R right, L left, U up, D +down. + +\noindent +\verb?\flow{x}? +Closed loop in the flowgraphs, x - letter - loop orientation U +up, D down. + +\subsection{Electron tubes} + +This circuit symbols are contained in macro \verb?\eltex4? \\ + + +\noindent +\verb?\diode{x}{y}? +Diode, x - letter - filament Y yes, N (or blanc) no, +y - letter - equipotential cathode Y yes, N (or blanc) no. + +\noindent +\verb?\triode{x}{y}? +Triode, x - letter - filament Y yes, N (or blanc) no, +y - letter - equipotential cathode Y yes, N (or blanc) no. + +\noindent +\verb?\tetrode{x}{y}? +Tetrode, x - letter - filament Y yes, N (or blanc) no, +y - letter - equipotential cathode Y yes, N (or blanc) no. + +\noindent +\verb?\pentode{x}{y}{z}? +Pentode, x - letter - filament Y yes, N (or blanc) no, +y - letter - equipotential cathode Y yes, N (or blanc) no, +z - letter - suppressor grid and cathode connection +Y yes, N (or blanc) no. + + +\noindent +\verb?\heptode{x}{y}{z}? +Heptode, x - letter - filament Y yes, N (or blanc) no, +y - letter - equipotential cathode Y yes, N (or blanc) no, +z - letter - cathode and +suppressor grid and screen grids g2 and g4 connection Y yes, +N (or blanc) no. + + +\subsection{Other basic circuit symbols} + +This circuit symbols are contained in macro \verb?\eltex5? \\ + +\noindent +\verb?\hfuse? +Fuse horizontally. + +\noindent +\verb?\vfuse? +Fuse vertically. + + +\noindent +\verb?\hrelay? +Relay horizontally. + + +\noindent +\verb?\vrelay? +Relay vertically. + +\noindent +\verb?\hlight? +Light source general (bulb) horizontally. + +\noindent +\verb?\vlight? +Light source general (bulb) vertically. + + +\noindent +\verb?\bell? +Bell horizontally. + +\noindent +\verb?\buzzer? +Buzzer horizontally. + + +\noindent +\verb?\siren? +Siren horizontally. + + +\noindent +\verb?\microphone{x}? +Microphone, x - letter - R right oriented, +L left. + + +\noindent +\verb?\earphone{x}? +Eatrphone, x - letter - R right oriented, +L left. + +\noindent +\verb?\loudspeaker{x}? +Loudspeaker, x - letter - R right oriented, +L left. + +\noindent +\verb?\hcrystal? +Quartz crystall horizontally. + +\noindent +\verb?\vcrystal? +Crystall vertically. + + +\noindent +\verb?\hgap? +Spark gap horizontally. + +\noindent +\verb?\vgap? +Spark gap vertically. + + +\noindent +\verb?\antenna{n}? +Antenna, n - number - 0 transmitting, 1 receiving, 2 transmission +and reception alternatively, 3 transmission and reception +instantaneously. + +\noindent +\verb?\dipole{n}? +Dipole, n - number - 0 single dipole, 1 folded dipole. + +\noindent +\verb?\loopant? +Loop antenna. + +\noindent +\verb?\cell{x}{y}? +Galvanic cell horizontally or vertically, +x - letter - plus pole R right, L left, +U up, D down, y - letter - Y photocell, N (or blanc) galvanic cell. + + +\noindent +\verb?\hglow? +Glow lamp horizontally. + + +\noindent +\verb?\vglow? +Glow lamp vertically. + +\noindent +\verb?\hdlamp? +Discharge lamp horizontally. + +\noindent +\verb?\vdlamp? +Discharge lamp vertically. + +\noindent +\verb?\hflamp? +Fluorescent lamp horizontally. + +\noindent +\verb?\vflamp? +Fluorescent lamp vertically. + + +\noindent +\verb?\sensor{x}? +Sensor of the quantity, output in the left. x - text - symbol of the +quantity e. g. $\vartheta$ temperature. + +\noindent +\verb?\head{n}? +converter head, output on the left. n - number -1 mechanical stereo +receiving, +2 magnetic mono receiving, 3 magnetic mono recording, +4 magnetic mono cleaning, 5 magnetic mono combined, +6 optical receiving. + + +\subsection{Block symbols} + +This circuit symbols are contained in macro \verb?\eltex6? \\ + +\noindent +\verb?\ptran? +Transformer + +\noindent +\verb?\fgen{n}? +Wave generator, n - number - 1 sine-wave, 2 square-wave, 3 sine-wave +with variable frequency. + +\noindent +\verb?\delay? +Delay line + +\noindent +\verb?\amplifier{x}? +Amplifier, x - letter - orientation R right, L left. + +\noindent +\verb?\filter{n}? +Frequency filter, n - number - 1 low pass, 2 high pass, 3 +band pass, 4 band stop. + +\noindent +\verb?\compressor? +Compressor. + + +\noindent +\verb?\expander? +Expander. + +\noindent +\verb?\deemphase? +Filter deemphase. + +\noindent +\verb?\preemphase? +Filter preemphase. + + +\noindent +\verb?\artline? +Artificial line. + +\noindent +\verb?\converter? +Converter. + +\noindent +\verb?\corrector{n}? +Corrector, n - number - 1 amplitude distortion corrector, +2 phase corrector, 3 group delay corrector. + +\noindent +\verb?\limiter? +Limiter. + +\noindent +\verb?\balance? +Balance. + +\noindent +\verb?\termin{n}? +Termination set, n - number - 1 with balancing network, +other number - without balancing network. + +\noindent +\verb?\hybrid? +Hybrid transformer. + +\noindent +\verb?\modulator? +Modulator. + + +\noindent +\verb?\atenuator? +Attenuator. + + +\noindent +\verb?\carrier{n}? +Carrier frequency, n - number - 1 carrier, +2 partially supressed carrier, 3 supressed carrier. + + +\noindent +\verb?\freq{n}? +Frequency, n - number - 1 pilot frequency, +2 signalling frequency. 3 measuring frequency. + +\noindent +\verb?\pilot{n}? +Pilot frequency, n - 1 basic group, 2 super group, +3 master group, 4 super master group. + +\noindent +\verb?\band{n}? +Frequency band, n - 1 frequency noninverted, 2 band ad 1 +phase inverted, 3 frequency inverted, 4 band ad 3 phase +inverted. + + +\noindent +\verb?\ltran{x}{n}? +Light transmitter, x - letter - light transmission +R right, L left, n - number - light - 1 coherent, +other number - uncoherent. + + +\noindent +\verb?\lrec{x}{n}? +Light receiver, x - letter - light reception +R right, L left, n - number - light 1 coherent, +other number - uncoherent. + + +\noindent +\verb?\fibre{x}? +Optical fibre, x - letter - S single mode step refraction index, +M multi mode step refraction index, blank letter - +general optical fibre. + +\noindent +\verb?\threephase{x}? +Three phase source, x - letter - D delta, S star. + +\noindent +\verb?\rgraetz? +Bridge rectifier. + + +\noindent +\verb?\trafo{x}? +Single phase transformer, x - letter - position +H horizontally, V vertically. + + +\noindent +\verb?\engine{n}? +Engine, n - number - 0 direct current, 1 single phase, +3 three phase , +4 linear, 5 stepping. + +\noindent +\verb?\gener{n}? +Generator, n - number - 0 direct current, 1 single phase, +3 three phase. + +\subsection{Logical circuit} + +This circuit symbols are contained in macro \verb?\eltex7? \\ + +\noindent +\noindent +\verb?\andnand{n}{m}{x}? +Logical gate AND, n - number - number of inputs 2 two inputs, 3 three +inputs, +m - number - type of the gate 0 basic, 1 power, 2 basic with open +collector, 3 power with open collector, x - letter - I +inverted output, N noninverted output. + + +\noindent +\verb?\ornor{n}{m}{x}? +Logical gate OR, n - number - number of inputs 2 two inputs, 3 three +inputs, +m - number - type of the gate 0 basic, 1 power, 2 basic with open +collector, 3 power with open collector, x - letter - I +inverted output, N noninverted output. + +\noindent +\verb?\invert{m}{x}? +Inverter, +m - number - type of the gate 0 basic, 1 power, 2 basic with open +collector, 3 power with open collector, x - letter - I +inverted output, N noninverted output. + + + +\section{Using of the commands} +It is necessary to select the +macro \verb?eltex? a \verb?bezier? In the case of "old" +\LaTeX 2.09 there are the commands: + + \begin{verbatim} +\documentstyle[a4,bezier]{article} +\input{eltex1} +% if you need also \input{eltex2} ..... \input{eltex7} +\begin{document} + +\begin{figure} +\begin{center} +\begin{picture}(100,80)(0,0) % picture size 100 x 80 mm + +\grid{10}{8} % grid with the step 10 mm + % mesh is numbered in mm + % to make easy the orientation + % After finishing the picture + % you can cancel this command +\put(30,30){\dind{U}{R}{1}} + +\end{picture} +\end{center} +\caption{\it Circuit diagram.} +\label{fig:agic1} +\end{figure} + +here is any text + + +\end{document} + +\end{verbatim} + +In the case of \LaTeX 2e is used only different heading +of the document. + +\section{Example} + +\begin{verbatim} +\begin{figure} +\begin{center} +\begin{picture}(100,80)(0,0) +\grid{10}{8} +\put(40,40){\mos{N}{R}{D}{D}{2}{Y}} +\put(10,40){\hcap{0}} +\put(40,10){\vrez{0}} +\put(40,40){\vrez{1}} +\put(30,10){\vrez{0}} +\put(30,40){\vrez{0}} +\put(60,10){\vrez{0}} +\put(70,10){\vcap{0}} +\put(60,45){\vvind{R}{0}} +\put(70,50){\vturn{L}{0}} +\put(65,50){\vcore{3}{F}} +\put(60,10){\chassis{D}} +\put(60,65){\vwire{5}} +\put(60,70){\hwire{30}} +\put(60,40){\hwire{10}} +\put(10,10){\hwire{80}} +\put(70,50){\hwire{10}} +\put(70,56){\hwire{10}} +\put(10,70){\hwire{30}} +\put(30,10){\node} +\put(40,10){\node} +\put(60,10){\node} +\put(70,10){\node} +\put(30,40){\node} +\put(40,43.5){\node} +\put(60,40){\node} +\put(30,70){\node} +\put(90.5,10){\pin} +\put(80.5,50){\pin} +\put(80.5,56){\pin} +\put(90.5,70){\pin} +\put(9,10){\pin} +\put(9,70){\pin} +\put(9,40){\pin} +\put(20,45){$C_{1}$} +\put(20,55){$R_{1}$} +\put(20,25){$R_{2}$} +\put(45,62){$R_{3}$} +\put(45,25){$R_{4}$} +\put(53,25){$R_{5}$} +\put(75,25){$C_{2}$} +\put(90,75){$+U_{CC}$} +\put(9,75){$\pm U_{r}$} +\end{picture} +\end{center} +\caption{\it Circuit diagram.} +\label{fig:agic1} +\end{figure} + + +\end{verbatim} + +\begin{figure} +\begin{center} +\begin{picture}(100,80)(0,0) +\grid{10}{8} +\put(40,40){\mos{N}{R}{D}{D}{2}{Y}} +\put(10,40){\hcap{0}} +\put(40,10){\vrez{0}} +\put(40,40){\vrez{1}} +\put(30,10){\vrez{0}} +\put(30,40){\vrez{0}} +\put(60,10){\vrez{0}} +\put(70,10){\vcap{0}} +\put(60,45){\vvind{R}{0}} +\put(70,50){\vturn{L}{0}} +\put(65,50){\vcore{3}{F}} +\put(60,10){\chassis{D}} +\put(60,65){\vwire{5}} +\put(60,70){\hwire{30}} +\put(60,40){\hwire{10}} +\put(10,10){\hwire{80}} +\put(70,50){\hwire{10}} +\put(70,56){\hwire{10}} +\put(10,70){\hwire{30}} +\put(30,10){\node} +\put(40,10){\node} +\put(60,10){\node} +\put(70,10){\node} +\put(30,40){\node} +\put(40,43.5){\node} +\put(60,40){\node} +\put(30,70){\node} +\put(90.5,10){\pin} +\put(80.5,50){\pin} +\put(80.5,56){\pin} +\put(90.5,70){\pin} +\put(9,10){\pin} +\put(9,70){\pin} +\put(9,40){\pin} +\put(20,45){$C_{1}$} +\put(20,55){$R_{1}$} +\put(20,25){$R_{2}$} +\put(45,62){$R_{3}$} +\put(45,25){$R_{4}$} +\put(53,25){$R_{5}$} +\put(75,25){$C_{2}$} +\put(90,75){$+U_{CC}$} +\put(9,75){$\pm U_{r}$} +\end{picture} +\end{center} +\caption{\it Circuit diagram.} +\label{fig:agic1} +\end{figure} + + + + + + +\end{document} |