electric circuits ecse-2010 spring 2003 class 21
TRANSCRIPT
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ELECTRIC CIRCUITSECSE-2010Spring 2003
Class 21
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ASSIGNMENTS DUE• Today (Tuesday/Wednesday):
• Experiment #7 Report Due (1 Per Team)• Will do Computer Project #3 in Class• Activities 21-1, 21-2 (In Class)
• Thursday:• Activities 21-3, 22-1 (In Class)
• Next Week – Spring Break:• No Classes!!
• Monday, March 17:• Homework #8 Due (1 Per Team)• Computer Project #3 Report Due (1 Per Student)• Activities 23-1, 23-2 (In Class)
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AC STEADY STATE
1x(t) A cos ( t ) F 2y (t) B cos ( t )
nd2 Order Circuit
Input x(t) Output y(t)
Ny (t) Under, Over or Critically Damped
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REVIEW
• AC Steady State:• Input = x(t) =
• Steady State Output = yF(t) = yss(t)
• yss(t) =
• Phasors; Express x(t) as Phasor X:
1 1Acos ( t ) X cos ( t )
2 2Bcos ( t ) Y cos ( t )
1
r i
1
j
X X jX Rectangular Form; j 1
X X / Polar Form
X X e Euler Form
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REVIEW
A
1
Complex Space
Real
Imaginary1X A/ Polar Form
r 1X Acos
i 1X Asin
r iX X jX Rectangular Form
1je
1jX Ae Euler Form
1
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COMPLEX MATH
• Addition:• A + B = (ar + j ai) + (br + j bi)
= (ar + br) + j (ai + bi)
• Subtraction:• A - B = (ar + j ai) - (br + j bi)
= (ar - br) + j (ai - bi)
• => Do Addition/Subtraction in Rectangular Form
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COMPLEX MATH• Multiplication:
• Difficult to do in Rectangular Form• Use Euler or Polar Form
• Division:
• Do Multiplication/Division in Polar Form
1 2 1 2j j j( )
1 2 1 2
AA B Ae /Be e
BA
A/ / B/ /( )B
1 2 1 2j j j( )
1 2 1 2
A x B Ae x Be AB e
A/ x B/ AB/( )
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RATIONALIZATION
• Division in Rectangular Form:r i
r i
a jaC A B
b jb
r i r i
r i r i
a ja b jbMultiply by
b jb b jb
r iWant to express as C C jC
r r i i i r r i2 2 2 2r i r i
r i
a b a b a b a bC j
b b b b
C j C
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COMPLEX CONJUGATES
• A = ar + j ai
• A* = ar - j ai = Complex Conjugate of A
• A x A* = ar2 + ai
2 =
• Angle of A* = - (Angle of A)
2A
*/ A / A
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ACTIVITY 21-1
A j5 B 4 j2 C 1 j3
Find D A x B j5 x ( 4 j2) 2j20 j 10
2j 1 D 10 j20
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ACTIVITY 21-1
*
DFind E
C D 10 j20
C 1 j3 *C 1 j3
10 j20E
1 j3
1 j3
x 1 j3
10 j30 j20 60
1 9
50 j50
5 j510
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ACTIVITY 21-20j120A 4e B 26 j15
0C 2/ 150 0D 2/ 30
*A x BFind E
C
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ACTIVITY 21-2
0 oE 60 (angle of 240 ) 60/240
*o 0A 4/ 120 , A 4/ 120
Convert All to Polar Form
* 0 0
0
A B 4/120 30/ 30E
C 2/ 150
oB 26 j15 30 / 30
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ACTIVITY 21-2oE 60/240
60 Real
Imag
030
30
52
E 30 j52
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ACTIVITY 21-2
3 oF D E 55 25 j60 65 /112.6
3F D E 55
Convert All to Rectangular Form
3 0 3 0D (2/ 30 ) 8/ 90 j8
0E 60/240 30 j52
55 55 j0
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ACTIVITY 21-2
Real
Imag
25
j60
oF 25 j60 65 /112.6
F
067.4
65
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K’S LAWS FOR PHASORS
• Circuit in AC Steady State:
• Can Express All v’s and i’s in Circuit as Phasors:
Input x(t) X cos( t )
Express x(t) as a Phasor X X /
1 1 2 2
1 1 2 2
v (t) V ; v (t) V
i (t) I ; i (t) I
etc.
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K’S LAWS FOR PHASORS
• KCL:• If i1 + i2 = i; => I1 + I2 = I
• KVL:• If v1 + v2 = v; => V1 + V2 = V
• K’s Laws Work for Phasors!• Complex Addition, not Simple Addition
• Will do Activity 21-3 Tomorrow
• Will do Computer Project #3 Today
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COMPUTER PROJECT 3
inv
1R2R
50
10 nF
10 nF
x2 v
outv
xv
1
2
R 10,000 x b
R 10,000/b
inv Pulse; 1V; 1msec
Op Amp Circuit
outFind v (t)
0 t 3ms
b .25, .5, 1.0, 1.5
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COMPUTER PROJECT 3
inv (t)
Volts
t (ms)
1
1 1.01
Piece-Wise Linear Model
1m,1
1.01m,0
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COMPUTER PROJECT 3
• Transient Simulation of 2nd Order Ckt:
• Model of an Op Amp Ckt:• Real Messy to do this Analytically!• Input = Rectangular Pulse; 1 V, 1 msec
duration• Use a Piece-Wise Linear model of Input
• R1 = 10,000 x b; R2 = 10,000 / b
• b = .25, .5, 1.0, 2.5• Transient Analysis for 0 < t < 3 msec• Identify Over, Under and Critical Damping
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COMPUTER PROJECT 3
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COMPUTER PROJECT 3
• Piece-Wise Linear Model – Schematics:• Use Source Named VPWL• Doubleclick on VPWL• Set T1, V1; T2, V2, T3, V3, etc
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PSPICE TRANSIENTS
• Transient Analysis - Schematics:• Click on Setup Analysis• Check Transient• Doubleclick on Transient • Set Print Step = Final Time• Set Final Time• Save• Click on Simulate
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PSPICE TRANSIENTS
• Transient Analysis - Schematics:• Also Need to Set Initial Conditions on L
and C• Create Circuit using L and c• Doubleclick on L and c • Set Value• Set Initial Conditions (Amps, Volts)
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PSPICE TRANSIENTS
• Transient Analysis – Circuit File:• .tran Statement
• .tran tf tf uic
• Start time for analysis is t = 0, End time = tf
• uic = use initial conditions
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PSPICE TRANSIENTS
• Transient Analysis with PSpice:• Need to put in initial conditions for L, C• C1 2 3 4u IC = 4Capacitor C1 connected between nodes
2 and 3, value = 4 uF, vC (0+) = 4 Volts
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COMPUTER PROJECT 3
• Piece-Wise Linear Model – Circuit File:• Vin 1 0 pwl 1m,1 1.01m,0
• Resistors:• R1 1 2 {10000*b}• R2 2 3 {10000/b}
• Initial Conditions:• IC = 0 for both C’s
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COMPUTER PROJECT 3• Circuit FileComputer Project 3 Spring 2003
vin 0 1 pwl 1m,1 1.01m,0
R1 1 2 {10000*b}
R2 2 3 {10000/b}
C25 2 5 10n ic=0
R34 3 4 50
C40 4 0 10n ic=0
E50 5 0 (3,0) 2
.param b=.25
.step param b list .25 .5 1 2.5
.tran 3m 3m uic
.probe
.end