** c:\aa_pjotr\lectures\electr2\proj\magweg.ewb ** * Interactive Image Technologies * * * * This File was created by: * * Electronics Workbench to SPICE netlist * * conversion DLL * * * * Mon May 28 16:25:44 2001 * ************************************************** * Multimeter(s) R_multimeter_vm 0 40_output 1Gohm * Oscilloscope(s) .PROBE V(55_input) R_o_scope_0_0 55_input 0 1Tohm .PROBE V(40_output) R_o_scope_0_1 40_output 0 1Tohm * Bode Plotter(s) .AC DEC 143 1Hz 10MEGHz .PROBE VM(0, 40_output) .PROBE VM(0, 55_input) * Function Generator(s) V_fg_plus 55_input 0 DC 0V AC 20mV +SIN(0V 20mV 1KHz) * Battery(s) * V3 54 0 DC -15 * V1 22 0 DC 15 * Resistor(s) * R25 43 44 1K * R17 54 23 8.2K * R24 0 40_output 8 * R26 44 45_opamp_out 100K * R28 47 22 8.2K * R27 0 47 8.2K * R29 46 22 2.2K * R18 23 0 8.2K * R19 54 24 2.2K * R31 48 52_up 470 * R30 50 45_opamp_out 470 * R33 51_down 50 470 * R32 45_opamp_out 48 470 * R22 40_output 53 16 * R23 36 40_output 16 * NPN Transistor(s) * Q11 22 33 53 Qnideal * Q9 22 52_up 33 Qnideal * Q13 52_up 48 45_opamp_out Qnideal * Q14 45_opamp_out 50 51_down Qnideal * Q5 51_down 23 24 Qn2n_2N2222 * PNP Transistor(s) * Q10 54 30 36 Qpideal * Q8 54 51_down 30 Qpideal * Q12 52_up 47 46 Qpideal * 5-Terminal Opamp(s) * X_opamp5_0 0 44 22 54 45_opamp_out opamp_741 * X_opamp5_1 55_input 43 22 54 43 opamp_741 * Connector(s) * node = 6, label = * node = 16, label = * node = 6, label = * node = 8, label = * node = 8, label = * node = 11, label = * node = 9, label = * node = 12, label = * node = 10, label = * node = 14, label = * node = 7, label = * node = 6, label = * node = 6, label = * node = 6, label = * node = 7, label = * node = 7, label = * node = 5, label = * node = 5, label = * node = 17, label = * node = 7, label = * node = 7, label = * node = 2, label = * node = 0, label = * node = 2, label = * node = 2, label = * node = 1, label = * node = 1, label = * node = 2, label = * node = 2, label = * node = 1, label = * node = 8, label = * node = 12, label = * node = 10, label = * Misc .OP .TRAN 5.6us 2.8ms 0s 5.6us .MODEL Qnideal NPN(Is=1e-16 BF=100 BR=1 Rb=0 Re=0 Rc=0 Cjs=0 Cje=0 Cjc=0 +Vje=750m Vjc=750m Tf=0 Tr=0 mje=330m mjc=330m VA=1e+30 ISE=0 IKF=1e+30 +Ne=1.5 NF=1 NR=1 VAR=1e+30 IKR=1e+30 ISC=0 NC=2 IRB=1e+30 RBM=0 XTF=0 +VTF=1e+30 ITF=0 PTF=0 XCJC=1 VJS=750m MJS=0 XTB=0 EG=1.11 XTI=3 KF=0 AF=1 +FC=500m TNOM=27) .MODEL Qn2n_2N2222 NPN(Is=11.6f BF=200 BR=4 Rb=1.69 Re=423m Rc=169m Cjs=0 +Cje=19.5p Cjc=9.63p Vje=750m Vjc=750m Tf=454p Tr=102n mje=333m mjc=333m +VA=98.5 ISE=170f IKF=410m Ne=2 NF=1 NR=1 VAR=1e+30 IKR=1e+30 ISC=0 NC=2 +IRB=1e+30 RBM=0 XTF=0 VTF=1e+30 ITF=0 PTF=0 XCJC=1 VJS=750m MJS=0 XTB=0 +EG=1.11 XTI=3 KF=0 AF=1 FC=500m TNOM=27) .MODEL Qpideal PNP(Is=1e-16 BF=100 BR=1 Rb=0 Re=0 Rc=0 Cjs=0 Cje=0 Cjc=0 +Vje=750m Vjc=750m Tf=0 Tr=0 mje=330m mjc=330m VA=1e+30 ISE=0 IKF=1e+30 +Ne=1.5 NF=1 NR=1 VAR=1e+30 IKR=1e+30 ISC=0 NC=2 IRB=1e+30 RBM=0 XTF=0 +VTF=1e+30 ITF=0 PTF=0 XCJC=1 VJS=750m MJS=0 XTB=0 EG=1.11 XTI=3 KF=0 AF=1 +FC=500m TNOM=27) .SUBCKT opamp_741 3 2 5 4 1 * nodes: 3=+ 2=- 1=out 5=V+ 4=V- * vc VC 5 15 DC 1.68573V * ve VE 12 4 DC 1.68573V * iee IEE 10 4 DC 15.16uA R1 10 0 10Gohm R6 11 0 100Kohm R7 5 4 1Kohm * rc1 Rc1 6 5 5.30516Kohm * rc2 Rc2 5 7 5.30516Kohm * re1 Re1 9 10 1.83919Kohm * re2 Re2 8 10 1.83919Kohm * ro1 Ro1 1 14 37.5ohm * ro2 Ro2 14 0 37.5ohm * ree Ree 10 0 13.1926MEGohm * rcc Rcc 0 13 22.0906uohm * cee Cee 0 10 1pF * cc Cc 14 11 30pF * c1 C1 6 7 4.58596pF * d1 D1 14 13 Dopamp1_741 * d2 D2 13 14 Dopamp1_741 * d3 D3 1 15 Dopamp2_741 * d4 D4 12 1 Dopamp2_741 * t1 Qt1 6 2 9 Qopamp1_741 * t2 Qt2 7 3 8 Qopamp2_741 * ga GA 11 0 6 7 188.496u * gc GC 0 13 1 0 45.2681K * gb GB 14 0 11 0 282.942 * gcm GCM 0 11 10 0 5.96075n .ENDS .MODEL Dopamp1_741 D(Is=75.3769fA Rs=0 + Cjo=0F Vj=750mV Tt=0s M=0) .MODEL Dopamp2_741 D(Is=8e-16A Rs=0 + Cjo=0F Vj=750mV Tt=0s M=0) .MODEL Qopamp1_741 NPN(Is=8e-16A BF=83.3333 + BR=960m Rb=0ohm Re=0ohm Rc=0ohm Cjs=0F Cje=0F Cjc=0F + Vje=750m Vjc=750m Tf=0 Tr=0 mje=0 mjc=0 VA=50) .MODEL Qopamp2_741 NPN(Is=8.30948e-16A BF=107.143 + BR=960m Rb=0 Re=0 Rc=0 Cjs=0F Cje=0F Cjc=0F + Vje=750m Vjc=750m Tf=0 Tr=0 mje=0 mjc=0 VA=50) .OPTIONS ITL4=25 .END