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%%
%% This is file `cisyms.tex',
%% generated with the docstrip utility.
%%
%% The original source files were:
%%
%% circ.dtx (with options: `doc')
%% CIRC is a LaTeX package to typeset circuit and optics diagrams.
%% Copyright (C) 1997,1998,2003 Sebastian Tannert and Andreas Tille
%%
%% This program is free software; you can redistribute it and/or modify
%% it under the terms of the GNU General Public License as published by
%% the Free Software Foundation; either version 2 of the License, or
%% (at your option) any later version.
%%
%% This program is distributed in the hope that it will be useful,
%% but WITHOUT ANY WARRANTY; without even the implied warranty of
%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
%% GNU General Public License for more details.
%%
%% You should have received a copy of the GNU General Public License
%% along with this program; if not, write to the Free Software
%% Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
%%
%% For error reports concerning UNCHANGED versions of this file no
%% more than one year old, see CIRC.DVI after installation.
%% If installation fails search thru this file for 'bug'.
\input cidoc
\freecirc
\hbox{\circuit0 \CIRCLogo \endcircuit\hskip3cm
\verb|\CIRCLogo|}\vskip5mm
\cwdef wire {128\c*fnt}
{wire}
\cwdef dashed {120\c*fnt}
{dashed wire}
\cwwdef bundle {bundle}
\cwwdef wwire {double wire}
\textdef Utext {text with arrow}
\textdef centertext {centered text}
\optionline basic
\cdefo GND ground
\cdefo gnd ground
\cdefo . junction \par
\cdef R R \c*fntw 0
{resistor}
\cdef Rus R \c*fntw 24
{US resistor}
\cdefviii Rvar R \c*fntw 8 . S *
{variable resistor}
\cdefviii Rusvar R \c*fntw 32 . S *
{variable resistor}
\cdef C C \c*fntw 128
{capacitor}
\cdef Cvar C \c*fntw 130
{variable capacitor}
\cdefiv Cel C \c*fntw 136 - +
{electrolytic capacitor}
\cdefiv D D \c*fntd 0 K A
{diode}
\cdefiv ZD D \c*fntd 4 K A
{Zener diode}
\cdefiviv LED D \c*fntd 8 K A
{light emitting diode}
\cdefiv Dcap D \c*fntd 16 K A
{capacitance variation diode}
\cdefiv whatI I \c*fnt 248 d s
{current flow}
\cdefiv U U \c*fnt 16 + -
{voltage source}
\cdef varU U \c*fnt 44
{voltage source, variant}
\cdef varI I \c*fnt 46
{current source variant}
\cdefiv Uvar U \c*fnt 20 + -
{variable voltage source}
\cdef I I \c*fnt 12
{current source}
\cdef Ivar I \c*fnt 14
{variable current source}
\cdef V U {\def\add*cmds{\clr*acmds
\ac*{\symfont V}}\c*fnt}8
{voltmeter}
\cdef A I {\def\add*cmds{\clr*acmds
\ac*{\symfont A}}\c*fnt}8
{amperemeter}
\cdefiv L L \c*fnt 0 . *
{coil}
\cdef xtal Q \c*fnt 4
{quartz crystal}
\cdef La La \c*fnt 6
{incandescent lamp} % electric bulb
\cdef GasLa {} \c*fnt 40
{gas lamp}
\cdef S S \c*fnt 24
{switch}
\cdefviii SW S \c*fnt 32 o s c
{changeover switch}
\cdefivNL mconnection \c*fnt 232 o c
{connection (pointed)}
\cdefivNL connection \c*fnt 240 o c
{connection (round empty)}
\cdefivNL fconnection \c*fnt 244 o c
{connection (round full)}
\cdefiviv npnPH T \c*fntt 80 E C
{phototransistor}
\cdefviii npnEC T \c*fntt 0 E . C
{npn-transistor without base}
\cdefviii pnpEC T \c*fntt 8 E . C
{pnp-transistor without base}
\cdefviii npn T \c*fntt 16 E B C
{npn-transistor}
\cdefviii pnp T \c*fntt 24 E B C
{pnp-transistor}
\cdefviii nfet T \c*fntt 32 S G D
{n-channel field effect transistor}
\cdefviii pfet T \c*fntt 40 S G D
{p-channel field effect transistor}
\cdefviii nvmos T \c*fntt 48 S G D
{}
\cdefviii pvmos T \c*fntt 56 S G D
{}
\cdefviii namos T \c*fntt 64 S G D
{}
\cdefviii pamos T \c*fntt 72 S G D
{}
\pagebreak
\optionline gate
\gateIIO OV \c*fntb 255 \ldd*OV + O -
{operational amplifier}
\gateIIO ov \c*fntb 254 \ldd*OV - O +
{operational amplifier}
\NgateIIO NAND \c*fntb 132 {$\&$}
{NAND-gate}
\NgateIIO AND \c*fntb 131 {$\&$}
{AND-gate}
\NgateIIO OR \c*fntb 131 {$\ge$1}
{OR-gate}
\NgateIIO NOR \c*fntb 132 {$\ge$1}
{NOR-gate}
\NgateIIO XOR \c*fntb 131 {$=$1}
{XOR-gate}
\NgateIIO XNOR \c*fntb 131 {$=$\vrule width 0pt height 1.5ex\,}
{XNOR-gate}
\NgateIO INV \c*fntb 130 {1\,}
{NOT-gate}
\NgateIO ST \c*fntb 128 {{\c*fnts\char7}}
{Schmitt trigger}
\NgateIO STINV \c*fntb 130 {{\c*fnts\char7}}
{inverted Schmitt trigger}
\NgateIO BUF \c*fntb 130 {{\c*fnts\char25}}
{buffer}
\optionline oldgate
\NgateIIO oldAND \c*fntb 133 {}
{old AND-gate}
\NgateIIO oldNAND \c*fntb 134 {}
{old NAND-gate}
\NgateIIO oldOR \c*fntb 135 {}
{old OR-gate}
\NgateIIO oldNOR \c*fntb 136 {}
{old NOR-gate}
\NgateIIO oldXOR \c*fntb 137 {}
{old XOR-gate}
\optionline box
\bbdef BBa \c*fntb 252
{black box analog}
\bbdef BBd \c*fntb 253
{black box digital}
\pagebreak
\bbdefNeT oscillograph \c*fnt 142 {}
{oscillograph}
\bbdefNeT G \c*fntb 250 \vbox{\hc*{\symfont G}\kern1.5\*spc%
\hc*{\c*fnts\char16}}
{generator}
\bbdefNeT Gvar \c*fntb 250 \vbox{\hc*{\symfont G}\kern1.5\*spc%
\hc*{\c*fnts\char17}}
{generator, variable}
\bbdefNeT Impulse \c*fntb 250 \c*fnts\char13
{generator, pulses}
\bbdefNeT Amp \c*fntb 250 \c*fnts\char24
{amplifier}
\sbdef ACtoDC \c*fntb 251 \hbox{\raise.6\ht*\hbox{\c*fnts\char16}%
\lower.6\dp*\hbox{\symfont$=$}}
{AC to DC converter}
\optionline ic
\Ccirc RSFF S {RS flip flop}{\Clpin{S}\Clpin{R}\Crpin{Q}\Crpin{NQ}}
\Ccirc NRSFF S {RS flip flop}{\Clpin{S}\Clpin{R}\Crpin{Q}\Crpin{NQ}}
\Ccirc DFF C {D flip flop}{\Clpin{C}\Clpin{D}\Crpin{Q}\Crpin{NQ}}
\Ccirc JKMSFF R {JK master slave flip flop}{\Clpin{S}\Clpin{J}\Clpin{C}\Clpin{K}\Clpin{R}\Crpin{Q}\Crpin{NQ}}
\Ccirc fff R {timer NE\,555}{\Clpin{IS}\Clpin{IT}\Clpin{R}\Crpin{OK}\Crpin{O}\Crpin{OD}}
\Ccirc NULL i+ {nullor}{\Clpin{i+}\Clpin{i-}\Crpin{o+}\Crpin{o-}}
\optionline optics
\textdef Dtext {text measuring a length}
\cwdef oa {128\CIRCcioptic}
{optical axis}
\cdef SLens L \CIRCcioptic 0
{thin lens}
\cdefiv HSLens L \CIRCcioptic 2 | )
{half thin lens}
\cdef BLens L \CIRCcioptic 6
{thick lens}
\cdefiv HBLens L \CIRCcioptic 8 | )
{half thick lens}
\cdef VLens L \CIRCcioptic 12
{concave lens}
\cdefiv HVLens L \CIRCcioptic 14 | (
{half concave lens}
\cdefviii Mirror M \CIRCcioptic 85 * . +
{mirror}
\cdefviii BSplit BS \CIRCcioptic 36 * . +
{beam splitter}
\cdef Polar P \CIRCcioptic 44
{polarizer}
\cdef Pinhole {} \CIRCcioptic 46
{pinhole}
\cdefiv Cam {} \CIRCcioptic 66 . |
{camera}
\cdef ScrL {} \CIRCcioptic 72
{screen, look at the left side}
\cdef ScrR {} \CIRCcioptic 74
{screen, look at the right side}
\cdef ScrBL {} \CIRCcioptic 76
{screen, look behind the left side}
\cdef ScrBR {} \CIRCcioptic 78
{screen, look behind the right side}
\cdef ScrTL {} \CIRCcioptic 80
{screen, look trough the left side}
\cdef ScrTR {} \CIRCcioptic 82
{screen, look trough the right side}
\cdef Laser {} \CIRCcioptic 160
{laser}
\cdef PM {} \CIRCcioptic 162
{photometer, -multiplyer, etc.}
\bbdefNeTii OM \CIRCcioptic 164 {}
{optical modulator}
\optionline physics
\cdef spring k \CIRCciphysic 0
{spring}
\cdef lspring k \CIRCciphysic 2
{long spring}
\cdef fdmass m \CIRCciphysic 4
{mass with two forces; full drawn}
\cdef dmass m \CIRCciphysic 6
{mass with two forces; outlined}
\cdefiv fmass m \CIRCciphysic 8 . *
{mass; full drawn}
\cdefiv mass m \CIRCciphysic 12 . *
{mass; outlined}
\cdefivNL wall \CIRCciphysic 16 . |
{wall}
\cdefivNL tile \CIRCciphysic 20 . *
{tile}
\cdef spinu S \CIRCciphysic 24
{spin up}
\cdef spind S \CIRCciphysic 26
{spin down}
\protectcirc
\endinput
%%
%% End of file `cisyms.tex'.
|