** c:\aa_pjotr\lectures\electr2\proj\trab2.ewb ***
*  Interactive Image Technologies                *
*                                                *
*  This File was created by:                     *
*    Electronics Workbench to SPICE netlist      *
*    conversion DLL                              *
*                                                *
*  Tue May 22 10:19:35 2001                      *
**************************************************

* Multimeter(s)
R_multimeter_vm 0 44_output 1Gohm

* Oscilloscope(s)
.PROBE V(16_input)
R_o_scope_0_0 16_input 0 1Tohm
.PROBE V(44_output)
R_o_scope_0_1 44_output 0 1Tohm

* Bode Plotter(s)
.AC DEC 143 1Hz 10MEGHz
.PROBE VM(0, 44_output)
.PROBE VM(0, 16_input)

* Function Generator(s)
V_fg_plus 16_input 0 DC 0V AC 20mV
+SIN(0V 20mV 1KHz)

* Battery(s)
* 
V3 38 0 DC -15 
* 
V1 22 0 DC 15 
* 
V4 41 0 DC 15 
* 
V5 42 0 DC -15 

* Resistor(s)
* 
R16 21 22 10K 
* 
R13 0 21 6.8K 
* 
R22 44_output 34 1 
* 
R23 36 44_output 1 
* 
R5 38 6 1K 
* 
R3 5 10 100 
* 
R4 10 3 100 
* 
R19 38 24 6.8K 
* 
R2 17_difpar_out 22 2.2K 
* 
R24 0 44_output 8 
* 
R7 9 0 10K 
* 
R8 38 9 10K 
* 
R18 23 0 10K 
* 
R17 38 23 10K 
* 
R12 43_opamp_in 22 27.4175K 
* 
R25 44_output 40 470 
* 
R1 1 22 2.2K 

* Capacitor(s)
* 
C1 0 21 25n

* NPN Transistor(s)
* 
Q1 1 16_input 5 Qn2n_2N2222
* 
Q2 17_difpar_out 0 3 Qn2n_2N2222
* 
Q3 10 9 6 Qn2n_2N2222
* 
Q5 43_opamp_in 23 24 Qn2n_2N2222
* 
Q11 22 33 34 Qnideal
* 
Q9 22 40 33 Qnideal

* PNP Transistor(s)
* 
Q4 43_opamp_in 21 17_difpar_out Qpphilips1_BC559
* 
Q10 38 30 36 Qpideal
* 
Q8 38 40 30 Qpideal

* 5-Terminal Opamp(s)
* 
X_opamp5_0 43_opamp_in 44_output 41 42 40 opamp_741

* Connector(s)
* node = 14, label = 
* node = 4, label = 
* node = 4, label = 
* node = 9, label = 
* node = 7, label = 
* node = 7, label = 
* node = 0, label = 
* node = 18, label = 
* node = 4, label = 
* node = 18, label = 
* node = 7, label = 
* node = 8, label = 
* node = 7, label = 
* node = 7, label = 
* node = 4, label = 
* node = 4, label = 
* node = 2, label = 
* node = 0, label = 
* node = 1, label = 
* node = 5, label = 
* node = 5, label = 
* node = 2, label = 
* node = 2, label = 
* node = 2, label = 
* node = 12, label = 
* node = 6, label = 
* node = 2, label = 
* node = 1, label = 

* Misc
.OP

.TRAN 5.6us 2.8ms 0s 5.6us 

.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 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 Qpphilips1_BC559 PNP(Is=1.0376f BF=314.68 BR=10.778 Rb=0 Re=0
+Rc=1.0848 Cjs=0 Cje=2p Cjc=10.989p Vje=750m Vjc=350m Tf=783.8p Tr=10n
+mje=330m mjc=305.14m VA=100 ISE=10.454f IKF=162.14m Ne=1.8425 NF=1 NR=1
+VAR=100 IKR=10m ISC=2.7559f NC=2.997 IRB=1e+30 RBM=0 XTF=4.7384
+VTF=8.4956 ITF=671.69m 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