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.PS
# Three.m4: three-phase oscillator
cct_init
define(`section',`[ I: Here
resistor(right elen_*0.75); llabel(,R/2)
T: dot
line down dimen_/2 then right_ dimen_/4
Amp: opamp(,,,,,
rgbfill(0.9,0.6,0.1,line to N then to E then to S then to Here)
"{\scriptsize$-$}" at In1 ljust
"{\scriptsize$+$}" at In2 ljust
) with .In1 at Here
line left dimen_/4 from Amp.In2 then down dimen_/4; G: ground
resistor(from T to (Amp.Out,T)); llabel(,R)
O: dot
{ arrow up dimen_*0.5 then right dimen_/4 up dimen_/4
"$`$1^\circ'$" above }
line to Amp.Out
dot(at T+(dimen_/4,0)); line up dimen_*0.6
capacitor(right_ Amp.Out.x-Here.x-dimen_/4,C); llabel(,2C)
line to (Here,T); dot
]')
A: section(0)
B: section(120) with .I at A.O
C: section(-120) with .I at B.O
ground(at (A.I,A.G)+(dimen_/3,0),,)
P:potentiometer(down_ dimen_/2,,0.75,dimen_/2) with .End at Here
line from P.Start to (A.I,P.Start); dot
resistor(up_ dimen_*0.75 from P.T1)
line to A.T
dot(at B.Amp.Out+(dimen_/3,0)); { "$V_c$" above }
resistor(down_ dimen_*0.75)
{ dot; line right (C.T.x-Here.x)/2
reversed(`diode',up_ dimen_)
line to C.T }
resistor(down_ dimen_*0.75)
dot
line from C.O right dimen_/4 then down C.O.y-Here.y then to (A.I,Here) \
then to A.I
.PE
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