# Electronics demo # # Bipolar Transistor (NPN) Mutual Characteristic Ie(Vbe)=Ies*exp(Vbe/kT_q) Ic(Vbe)=alpha*Ie(Vbe)+Ico alpha = 0.99 Ies = 4e-14 Ico = 1e-09 kT_q = 0.025 set dummy Vbe set grid set offsets unset log unset polar set samples 160 set title "Mutual Characteristic of a Transistor" set xlabel "Vbe (base emmitter voltage)" set xrange [0 : 0.75] set ylabel "Ic (collector current)" set yrange [0 : 0.005] set key box set key at .2,.0045 set format y "%.4f" plot Ic(Vbe) set format "%g" |
# Junction Field Effect Transistor (JFET) Mutual Characteristic # drain current above pinch off Ida(Vd)=Ido*(1-Vg/Vp)**2 # drain current below pinch off Idb(Vd)=Ido*(2*Vd*(Vg-Vp)-Vd*Vd)/(Vp*Vp) # drain current Id(Vd)= (Vd>Vg-Vp) ? Ida(Vd) : Idb(Vd) # drain current at zero gate voltage Ido = 2.5 # pinch off voltage Vp = -1.25 # gate voltage Vg = 0 set dummy Vd unset grid unset key #set offsets 0, 1, 0, 0 set title "JFET Mutual Characteristic" set xlabel "Drain voltage Vd (V)" set xrange [0 : 4] set ylabel "Drain current Id (mA)" set yrange [0 : 5] set rmargin 12 set label 1 "-0.5 Vp" at 4.1,0.625 set label 2 "-0.25 Vp" at 4.1,1.4 set label 3 "0" at 4.1,2.5 set label 4 "Vg = 0.5 Vp" at 4.1,3.9 plot Vg=0.5*Vp,Id(Vd),Vg=0.25*Vp,Id(Vd),Vg=0,Id(Vd),Vg=-0.25*Vp,Id(Vd) |
unset label unset rmargin # show off double axes # amplitude frequency response A(jw) = ({0,1}*jw/({0,1}*jw+p1)) * (1/(1+{0,1}*jw/p2)) p1 = 10 p2 = 10000 set dummy jw set grid x y2 set logscale xy set log x2 unset log y2 set key default set key bottom center box set title "Amplitude and Phase Frequency Response" set xlabel "jw (radians)" set xrange [1.1 : 90000.0] set ylabel "magnitude of A(jw)" set y2label "Phase of A(jw) (degrees)" set ytics nomirror tc lt 1 set y2tics nomirror tc lt 3 set xtics mirror set tics out set autoscale y set autoscale y2 plot abs(A(jw)) lt 1, 180/pi*arg(A(jw)) axes x1y2 lt 3 |
# undo what we've done |