first order circuits - virginia techliab/lectures/ch_7/slides/rc and rl... · natural response the...
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![Page 1: First Order Circuits - Virginia TechLiaB/Lectures/Ch_7/Slides/RC and RL... · Natural Response The behavior of the circuit with no external sources of excitation. There was a transition](https://reader031.vdocument.in/reader031/viewer/2022022716/5c1d274709d3f206658c075d/html5/thumbnails/1.jpg)
First Order Circuits
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Objective of Lecture Explain the transient response of a RC circuit
as the capacitor releases energy when there is:
a transition in a unit step function source [1-u(t-to)]
or a voltage or current source is switched out of the circuit.
Explain the transient response of a RL circuit
as the inductor releases energy when there is:
a transition in a unit step function source [1-u(t-to)]
or a voltage or current source is switched out of the circuit.
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Natural Response The behavior of the circuit with no external sources of
excitation. There was a transition in the source in the circuit where
the unit step function changed from 1 to 0 at t = 0s.
There is stored energy in the capacitor or inductor at time t = 0 s.
For t > 0 s, the stored energy is released Current flows through the circuit and voltages exist across
components in the circuit as the stored energy is released.
The stored energy will decays to zero as time approaches infinite, at which point the currents and voltages in the circuit become zero.
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RC Circuit Suppose there is some charge on a capacitor at time t =
0s. This charge could have been stored because a voltage or current source had been in the circuit at t<0s, but was switched off at t = 0s.
We can use the equations relating voltage and current to determine how the charge on the capacitor is removed as a function of time.
The charge flows from one plate of the capacitor through the resistor R to the other plate to neutralize the charge on the opposite plate of the capacitor.
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Equations for RC Circuit
R
vi
dt
dvCi
ii
vv
RR
CC
RC
RC
0
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stCC
C
C
C
C
CC
CR
RC
VRC
tV
dtRCV
dV
RCdt
dV
V
RC
V
dt
dV
VV
R
V
dt
dVC
0lnln
1
011
0
0
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t
oCR
t
oC
stCo
eR
VtItI
steVtV
RCVV
)()(
0 when )(
and If0
t
o
t
s
R
t
oRRR
eCV
dttptw
eR
VIVtp
22
0
22
12
)()(
)(
Since the voltages are equal and the currents have the opposite sign, the power that is dissipated by the resistor is the power that is being released by the capacitor.
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RL Circuits
RVI
dt
dILV
II
VV
RR
LL
RL
RL
0
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stLL
L
L
L
L
LL
RL
ItL
RI
dtL
R
I
dI
L
R
dt
dI
I
L
RI
dt
dI
RIdt
dIL
0lnln
01
0
0
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t
oLR
t
oL
stLo
eRItVtV
steItI
R
LII
)()(
0 when )(
and If0
t
o
t
s
R
t
oRRR
eLI
dttptw
eRIIVtp
22
0
22
12
)()(
)(
Since the currents are equal and the voltage have the opposite sign, the power that is dissipated by the resistor is the power that is being released by the inductor.
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Initial Condition Can be obtained by inserting a d.c. source to the
circuit for a time much longer than at least t = -5. Capacitor Vo is the voltage calculated by replacing the capacitor with a
resistor with infinite resistance (an open circuit) after the voltage across the capacitor has reached a constant value (steady state).
Inductor Io is the current flowing through the inductor calculated by
replacing the inductor with a resistor with zero resistance (a short circuit) after the current flowing through the inductor has reached a constant value (steady-state).
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PSpice
You can set the initial condition on a capacitor or inductor by doubling clicking on the part symbol. Then, enter a value for IC in the pop-up window that opens.
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Time constant, The time required for the voltage across the capacitor
or current in the inductor to decay by a factor of 1/e or 36.8% of its initial value.
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V(t) = 6V [1 - u(t)]
Example #1IL(t)
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Example #1 (con’t)IL(t)
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Example #1 (con’t)
t < 0s
VL = 0VVR = 6VIL = IR = 2mA
Therefore,
Io = 2mA
Find the initial condition.
Io
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Example #1 (con’t)
IL(t)
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Example #1 (con’t)
t > 0s
= L/R = 10mH/3kW = 3.33ms
IL = IR =Ioe-t/ = 2mA e-(t/3.33ms)
VR = 3kW IR = 6V e-(t/3.33ms)
VL = L dIL/dt = -6V e-(t/3.33ms)
NoteVR + VL = 0 V
IL(t)
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Example #2
+
VC
_
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Example #2 (con’t)
+
VC
_
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Example #2 (con’t) Calculate the initial condition - the voltage on the
capacitor. Replace the capacitor with an open circuit and find the voltage across the two terminals. Note that in this circuit, current will flow through R3 so there will
be a voltage across C, but it will not be equal to the magnitude of the voltage source in the circuit.
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Example #2 (con’t) The voltage across the capacitor is equal to the voltage
across the 12kW resistor.
VC = Vo = [12kW /15kW] 5V = 4V
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Example #2 (con’t)
+
VC
_
+
VC
_
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Example #2 (con’t) Further simplification of the circuit
+
VC
_
WWWW kkkkReq 31231 where
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Example #2 (con’t)
0)()(
33.1)()(
33.1)(
)6/4(2)(
)(
)()(
4)(
)(
2mswhen t
6)2(3
6/)2(
6/)2(
6/)2(
6/)2(
/)2(
2
W
tItI
emAtItI
emAtI
emsVFdt
tdVCtI
tVtV
VetV
etVV
msFkCR
CR
msmst
CR
msmst
C
msmstCC
RC
msmst
C
mst
mstCC
eq
eq
eq
eq
m
m
IC(t)
IR(t)
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Summary The initial condition for:
the capacitor voltage (Vo) is determined by replacing the capacitor with an open circuit and then calculating the voltage across the terminals.
The inductor current (Io) is determined by replacing the inductor with a short circuit and then calculating the current flowing through the short.
The time constant for: an RC circuit is RC an RL circuit is L/R
The general equations for the natural response of: the voltage across a capacitor is the current through an inductor is
/)(
/)(
)(
)(
o
o
tt
oL
tt
oC
eItI
eVtV