8. Ñòàíäàðò ïðåäïðèÿòèÿ. ÑÒÏ
ÓÃÒÓ – ÓÏÈ 1 – 96: Îáùèå òðåáîâàíèÿ è ïðàâèëà îôîðìëåíèÿ äèïëîìíûõ è êóðñîâûõ ïðîåêòîâ
(ðàáîò). Åêàòåðèíáóðã: ÓÃÒÓ-ÓÏÈ, 1996. 130 ñ.
9. Êèéêî Â.Â. Ìîäåëèðîâàíèå è
àíàëèç ýëåêòðîííûõ ñõåì íà ÝÂÌ: Ìåòîäè÷åñêèå óêàçàíèÿ ê êóðñîâîé ðàáîòå ïî
äèñöèïëèíå “Àâòîìàòèçèðîâàííîå ïðîåêòèðîâàíèå ðàäèîýëåêòðîííûõ ñõåì”.
Åêàòåðèíáóðã: ÓÃÒÓ-ÓÏÈ, 1994. 40 ñ.
10. Ïðîåêòèðîâàíèå àíàëîãîâûõ
ýëåêòðîííûõ óñòðîéñòâ: Ìåòîäè÷åñêèå óêàçàíèÿ / Â.Ã. Âàæåíèí, Ñ.Â. Ãðèíüêîâ,
Í.À. Äÿäüêîâ, Ë.Ë. Ëåñíàÿ. Åêàòåðèíáóðã: ÓÃÒÓ-ÓÏÈ, 2001. 36 ñ.
* Koltushev Ilya
* Variant 109
*
.opt acct list node opts nopage reltol=0.0001 ITL5=0
ITL4=200
.width out=80
.op
*.temp 27
.temp 10 27 60
.ac dec 20 10 100k
.tran/op 1u 5m
.probe
.TF V(100,101) vin
.FOUR 1KHz V(100,101) V(111)
.NOISE V(100,101) Vin
.SENS V(100,101)
.WCase tran V(100,101) YMAX devices r
.print noise onoise inoise
*
C1 31 111 47U
C2 6 31 0.45U
C3 4 2 18.5P
C4 3 0 0.1U
C5 3 0 47U
C6 21 20 18.5P
C7 3 0 0.1U
C8 3 0 47U
D1 3 9 2S147A
D2 4 17 2D104A
D3 17 18 2D104A
D4 18 32 2D104A
D5 32 8 2D104A
D6 21 29 2D104A
D7 29 30 2D104A
D8 30 33 2D104A
D9 33 23 2D104A
D10 3 24 2S147A
Q1 8 9 10 KT817V
Q2 5 4 7 KT817V
Q3 3 8 11 KT816V
Q4 5 7 12 KT819G
Q5 3 11 13 KT818G
Q6 5 22 27 KT819G
Q7 3 26 28 KT818G
Q8 5 21 22 KT817V
Q9 3 23 26 KT816V
Q10 23 24 25 KT817V
R1 0 31 RMOD 10K
R2 0 1 RMOD 1200
R3 6 2 RMOD 10K
R4 2 4 RMOD 180K
R5 9 0 RMOD 2830
R6 3 10 RMOD 570
R7 11 7 RMOD 56
R8 100 12 RMOD 0.5
R9 13 100 RMOD 0.5
R10 101 27 RMOD 0.5
R11 28 101 RMOD 0.5
R12 26 22 RMOD 56
R13 3 25 RMOD 570
R14 0 19 RMOD 1200
R15 20 4 RMOD 180K
R16 20 21 RMOD 180K
R17 24 0 RMOD 2830
RN 100 101 4
V1 5 0 33V
V2 0 3 33V
VIN 111 0 SIN (0 1 1000)
X1 1 2 3 4 5 LM344
X2 19 20 3 21 5 LM344
*
.model RMOD RES(R=1 DEV/GAUSS 10%)
.model R RES(R=1)
.MODEL D223A D ()
.MODEL KS162A D (IS={89.00E-15} N=1.16 BV=4.7 IBV=5U RS=25
TT=57N CJO=72.00P
+ VJ=0.8 M=0.47 FC=0.5)
.MODEL KT819G NPN (IS=974.4F BF=60 BR=2.949 NR=0.7
ISE=902.0P
+ IKF=4.029 NE=1.941 VAF=30 RC=0.1 RB=2 TF=39.11N TR=971.7N
XTF=2 VTF=10 ITF=20
+ CJE=569.1P MJE=0.33 CJC=276.0P XTB=10)
.MODEL KT818G PNP (IS=974.4F BF=60 BR=2.949 NR=0.7
ISE=902.0P
+ IKF=4.029 NE=1.941 VAF=30 RC=0.1 RB=2 TF=39.11N TR=971.7N
XTF=2 VTF=10 ITF=20
+ CJE=569.1P MJE=0.33 CJC=276.0P XTB=10)
.MODEL 2D104A D (IS=10F N=1 RS=.1 IKF=0 XTI=3 EG=1.11 CJO=1P
M=.3333 VJ=.75
+ FC=.5 ISR=100P NR=2 BV=100 IBV=100U TT=5N)
.MODEL 2S147A D (IS={1.236E-12} N=1.87 BV=4.7 IBV=5U RS=20.2
TT=104.0N
+ CJO=87.60P VJ=0.73 M=0.3751 FC=0.5)
.MODEL KT816V PNP (IS=61.09F XTI=3 EG=1.11 VAF=85 BF=100.3
ISE=862.2F
+ NE=1.481 IKF=1.642 NK=.5695 XTB=1.5 BR=1.453 ISC=1.831P
NC=1.514
+ IKR=.7536 RC=.1198 CJC=130.06P MJC=.3333 VJC=.75 FC=.5
CJE=100.8P
+ MJE=.3333 VJE=.75 TR=465.1N TF=31.79N ITF=1 XTF=2 VTF=10)
.MODEL KT817V NPN (IS=66.19F XTI=3 EG=1.11 VAF=105 BF=94.53
ISE=728.1F
+ NE=1.432 IKF=.4772 NK=.4907 XTB=1.5 BR=1.663 ISC=1.043P
NC=1.476
+ IKR=.9431 RC=.1435 CJC=98.3P MJC=.3155 VJC=.75 FC=.5
CJE=108.6P
+ MJE=.3333 VJE=.75 TR=137.2N TF=26.48N ITF=1 XTF=2 VTF=10)
*
* OPAMP
* PINS: 1=NC+ 2=NC- 3=VEE 4=VO 5=VCC
.SUBCKT LM344 1 2 3 4 5
C1 6 7
2.88675e-012
C2 12 13 1e-011
CE 10 14 1e-019
D1 18 19 D
D2 20 18 D
D3 4 16 D
D4 17 4 D
D5 3 5 D
E1 14 0 POLY(2) 5 0 3 0 0 0.5 0.5
F1 13 14 POLY(5) VS1 VC VE VLP VLN 0 1.14592e+008
-1.14592e+008 1.14592e+008
+ 1.14592e+008 -1.14592e+008
GA 12 0 6 7 6.28319e-005
GCM 0 12 10 0 1.98692e-009
H1 18 0 VS2 1000
IEE 10 3 2.5016e-005
Q1 6 2 8 QINN
Q2 7 1 9 QINP
R2 12 11 100000
RC1 5 6 15915.5
RC2 5 7 15915.5
RE1 8 10 13837.5
RE2 9 10 13837.5
RE 10 14 7.99488e+006
RO2 13 14 25
ROUTAC 15 4 50
RP 5 3 278276
VC 5 16 2
VE 17 3 2
VLN 0 20 20
VLP 19 0 20
VS1 11 0 0
VS2 13 15 0
*
.MODEL D D ()
.MODEL QINN NPN (BF=1470.59)
.MODEL QINP NPN (BF=1666.67 IS=1e-016)
.ENDS LM344
*
*** Parts Count
** Battery 2
** Resistor 18
** Capacitor 8
** Diode 10
** NPN 6
** PNP 4
** Sine source 1
** Opamp 2
.END
**** FOURIER ANALYSIS TEMPERATURE =
10.000 DEG C
FOURIER COMPONENTS OF TRANSIENT RESPONSE V(100,101)
DC COMPONENT = 3.598210E-01
HARMONIC FREQUENCY FOURIER NORMALIZED
PHASE NORMALIZED
NO (HZ) COMPONENT COMPONENT
(DEG) PHASE (DEG)
1 1.000E+03 2.768E+01 1.000E+00
1.791E+02 0.000E+00
2 2.000E+03 1.189E-02 4.295E-04
4.797E+01 -3.102E+02
3 3.000E+03 1.364E-01 4.927E-03 1.793E+02
-3.580E+02
4 4.000E+03 1.124E-02 4.062E-04
2.049E+01 -6.959E+02
5 5.000E+03 1.006E-02 3.634E-04
1.800E+02 -7.155E+02
6 6.000E+03 4.387E-03 1.585E-04
4.501E-01 -1.074E+03
7 7.000E+03 1.553E-02 5.611E-04
1.640E+02 -1.090E+03
8 8.000E+03 4.618E-03 1.668E-04
2.145E+01 -1.411E+03
9 9.000E+03 7.305E-03 2.639E-04
1.660E+02 -1.446E+03
**** FOURIER ANALYSIS TEMPERATURE = 27.000
DEG C
FOURIER COMPONENTS OF TRANSIENT RESPONSE V(100,101)
DC COMPONENT = 3.647425E-01
HARMONIC FREQUENCY FOURIER NORMALIZED
PHASE NORMALIZED
NO (HZ) COMPONENT COMPONENT
(DEG) PHASE (DEG)
1 1.000E+03 2.806E+01 1.000E+00
1.791E+02 0.000E+00
2 2.000E+03 9.639E-03 3.436E-04
3.629E+01 -3.219E+02
3 3.000E+03 9.076E-02 3.235E-03
1.796E+02 -3.576E+02
4 4.000E+03 1.098E-02 3.912E-04
1.709E+01 -6.993E+02
5 5.000E+03 1.090E-02 3.885E-04
1.696E+02 -7.258E+02
6 6.000E+03 4.767E-03 1.699E-04
1.454E+01 -1.060E+03
7 7.000E+03 1.623E-02 5.786E-04
1.709E+02 -1.083E+03
8 8.000E+03 4.721E-03 1.683E-04
1.689E+01 -1.416E+03
9 9.000E+03 7.313E-03 2.606E-04
1.629E+02 -1.449E+03
TOTAL HARMONIC DISTORTION = 4.404183E-01 PERCENT
**** FOURIER ANALYSIS TEMPERATURE = 27.000
DEG C
SENSITIVITY NOMINAL
FOURIER COMPONENTS OF TRANSIENT RESPONSE V(111)
DC COMPONENT = 5.608723E-05
HARMONIC FREQUENCY FOURIER NORMALIZED
PHASE NORMALIZED
NO (HZ) COMPONENT COMPONENT
(DEG) PHASE (DEG)
1 1.000E+03 9.950E-01 1.000E+00
9.271E-03 0.000E+00
2 2.000E+03 2.372E-04 2.384E-04
-4.506E+00 -4.525E+00
3 3.000E+03 9.620E-04 9.668E-04
5.353E+00 5.325E+00
4 4.000E+03 2.632E-04 2.645E-04
-1.758E+02 -1.758E+02
5 5.000E+03 1.130E-04 1.136E-04
9.113E+01 9.108E+01
6 6.000E+03 1.275E-04 1.282E-04
9.859E+00 9.804E+00
7 7.000E+03 4.590E-04 4.613E-04
-6.867E+01 -6.873E+01
8 8.000E+03 9.741E-05 9.790E-05
-1.786E+02 -1.787E+02
9 9.000E+03 3.863E-04 3.882E-04
-7.175E+01 -7.183E+01
TOTAL HARMONIC DISTORTION = 1.209958E-01 PERCENT
**** DC SENSITIVITY
ANALYSIS TEMPERATURE = 10.000 DEG C
DC
SENSITIVITIES OF OUTPUT V(100,101)
ELEMENT
ELEMENT ELEMENT NORMALIZED
NAME
VALUE SENSITIVITY SENSITIVITY
(VOLTS/UNIT)
(VOLTS/PERCENT)
R1
1.000E+04 0.000E+00 0.000E+00
R2
1.200E+03 -1.258E-08 -1.509E-07
R3
1.000E+04 0.000E+00 0.000E+00
R4
1.800E+05 1.426E-08 2.568E-05
R5
2.830E+03 7.842E-07 2.219E-05
R6
5.700E+02 7.713E-05 4.396E-04
R7
5.600E+01 -1.964E-05 -1.100E-05
R8
5.000E-01 -6.019E-02 -3.010E-04
R9
5.000E-01 5.969E-02 2.984E-04
R10
5.000E-01 6.002E-02 3.001E-04
R11
5.000E-01 -5.985E-02 -2.993E-04
R12
5.600E+01 1.978E-05 1.108E-05
R13
5.700E+02 -7.717E-05 -4.399E-04
R14
1.200E+03 1.258E-08 1.509E-07
R15
1.800E+05 -7.132E-09 -1.284E-05
R16
1.800E+05 -3.779E-14 -6.801E-11
R17
2.830E+03 -7.846E-07 -2.220E-05
RN
4.000E+00 4.924E-05 1.970E-06
**** DC SENSITIVITY ANALYSIS
TEMPERATURE = 27.000 DEG C
DC SENSITIVITIES OF OUTPUT
V(100,101)
ELEMENT
ELEMENT ELEMENT NORMALIZED
NAME
VALUE SENSITIVITY SENSITIVITY
(VOLTS/UNIT) (VOLTS/PERCENT)
R1
1.000E+04 0.000E+00 0.000E+00
R2
1.200E+03 -1.265E-08 -1.518E-07
R3
1.000E+04 0.000E+00 0.000E+00
R4 1.800E+05
1.435E-08 2.582E-05
R5
2.830E+03 8.279E-07 2.343E-05
R6
5.700E+02 8.169E-05 4.656E-04
R7
5.600E+01 -1.813E-05 -1.015E-05
R8 5.000E-01
-6.609E-02 -3.305E-04
R9
5.000E-01 6.570E-02 3.285E-04
R10
5.000E-01 6.592E-02 3.296E-04
R11
5.000E-01 -6.587E-02 -3.294E-04
R12
5.600E+01 1.829E-05 1.024E-05
R13
5.700E+02 -8.173E-05 -4.659E-04
R14
1.200E+03 1.265E-08 1.518E-07
R15
1.800E+05 -7.173E-09 -1.291E-05
R16
1.800E+05 -4.043E-14 -7.278E-11
R17
2.830E+03 -8.283E-07 -2.344E-05
RN
4.000E+00 4.801E-05 1.921E-06
**** DC SENSITIVITY
ANALYSIS TEMPERATURE = 60.000 DEG C
DC SENSITIVITIES OF OUTPUT
V(100,101)
ELEMENT
ELEMENT ELEMENT NORMALIZED
NAME
VALUE SENSITIVITY SENSITIVITY
(VOLTS/UNIT) (VOLTS/PERCENT)
R1
1.000E+04 0.000E+00 0.000E+00
R2
1.200E+03 -1.271E-08 -1.526E-07
R3
1.000E+04 0.000E+00 0.000E+00
R4
1.800E+05 1.442E-08 2.595E-05
R5
2.830E+03 9.089E-07 2.572E-05
R6
5.700E+02 9.023E-05 5.143E-04
R7
5.600E+01 -1.515E-05 -8.486E-06
R8
5.000E-01 -7.587E-02 -3.793E-04
R9
5.000E-01 7.560E-02 3.780E-04
R10
5.000E-01 7.569E-02 3.785E-04
R11
5.000E-01 -7.577E-02 -3.788E-04
R12
5.600E+01 1.533E-05 8.584E-06
R13
5.700E+02 -9.027E-05 -5.145E-04
R14
1.200E+03 1.271E-08 1.526E-07
R15
1.800E+05 -7.209E-09 -1.298E-05
R16
1.800E+05 -4.112E-14 -7.402E-11
R17
2.830E+03 -9.092E-07 -2.573E-05
RN
4.000E+00 4.692E-05 1.877E-06
[1] Ðàñ÷åòíûå âåëè÷èíû èìåþò ðàçìåðíîñòè ñèñòåìû ÑÈ
Ñòðàíèöû: 1, 2
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