Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy...
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Transcript of Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy...
![Page 1: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/1.jpg)
Lecture 14 1
1st Order Circuits
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Lecture 14 2
1st Order Circuits
• Any circuit with a single energy storage element, an arbitrary number of sources, and an arbitrary number of resistors is a circuit of order 1.
• Any voltage or current in such a circuit is the solution to a 1st order differential equation.
![Page 3: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/3.jpg)
Lecture 14 3
Important Concepts
• The differential equation
• Forced and natural solutions
• The time constant
• Transient and steady state waveforms
![Page 4: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/4.jpg)
Lecture 14 4
A First Order RC Circuit
• One capacitor and one resistor
• The source and resistor may be equivalent to a circuit with many resistors and sources.
R+
-Cvs(t)
+
-
vc(t)
+ -vr(t)
![Page 5: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/5.jpg)
Lecture 14 5
Applications Modeled by a 1st Order RC Circuit
• Computer RAM
– A dynamic RAM stores ones as charge on a capacitor.
– The charge leaks out through transistors modeled by large resistances.
– The charge must be periodically refreshed.
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Lecture 14 6
More Applications
• The low-pass filter for an envelope detector in a superhetrodyne AM receiver.
• A sample-and-hold circuit for a PCM encoder:
– The capacitor is charged to the voltage of a waveform to be sampled.
– The capacitor holds this voltage until an A/D converter can convert it to bits.
![Page 7: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/7.jpg)
Lecture 14 7
The Differential Equation(s)
KCL around the loop:
vr(t) + vc(t) = vs(t)
R+
-Cvs(t)
+
-
vc(t)
+ -vr(t)
![Page 8: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/8.jpg)
Lecture 14 8
Differential Equation(s)
)()(1
)( tvdxxiC
tRi s
t
dt
tdvC
dt
tdiRCti s )()(
)(
dt
tdvRC
dt
tdvRCtv sr
r
)()()(
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Lecture 14 9
What is the differential equation for vc(t)?
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Lecture 14 10
A First Order RL Circuit
• One inductor and one resistor
• The source and resistor may be equivalent to a circuit with many resistors and sources.
v(t)is(t) R L
+
-
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Lecture 14 11
Applications Modeled by a 1st Order LC Circuit
• The windings in an electric motor or generator.
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Lecture 14 12
The Differential Equation(s)
KCL at the top node:
v(t)is(t) R L
+
-
)()(1)(
tidxxvLR
tvs
t
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Lecture 14 13
The Differential Equation
dt
tdiL
dt
tdv
R
Ltv s )()()(
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Lecture 14 14
1st Order Differential Equation
Voltages and currents in a 1st order circuit satisfy a differential equation of the form
)()(
)( tfdt
tdvatv
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Lecture 14 15
Important Concepts
• The differential equation
• Forced (particular) and natural (complementary) solutions
• The time constant
• Transient and steady state waveforms
![Page 16: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/16.jpg)
Lecture 14 16
The Particular Solution
• The particular solution vp(t) is usually a weighted sum of f(t) and its first derivative.
• If f(t) is constant, then vp(t) is constant.
• If f(t) is sinusoidal, then vp(t) is sinusoidal.
![Page 17: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/17.jpg)
Lecture 14 17
The Complementary Solution
The complementary solution has the following form:
What value must have to give a solution to
/)( tc Ketv
0)(
)( dt
tdvatv c
c
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Lecture 14 18
Complementary Solution
• How do I choose the value of K?
• The initial conditions determine the value of K.
atc Ketv /)(
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Lecture 14 19
Important Concepts
• The differential equation
• Forced (particular) and natural (complementary) solutions
• The time constant
• Transient and steady state waveforms
![Page 20: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/20.jpg)
Lecture 14 20
The Time Constant
• The complementary solution for any 1st order circuit is
• For an RC circuit, = RC
• For an LC circuit, = L/R
/)( tc Ketv
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Lecture 14 21
What Does vc(t) Look Like?
= 10-4
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Lecture 14 22
Interpretation of
• is the amount of time necessary for an exponential to decay to 36.7% of its initial value.
• -1/ is the initial slope of an exponential with an initial value of 1.
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Lecture 14 23
Implications of the Time Constant
• Should the time constant be large or small:
– Computer RAM
– The low-pass filter for the envelope detector
– The sample-and-hold circuit
– The electrical motor
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Lecture 14 24
Important Concepts
• The differential equation
• Forced (particular) and natural (complementary) solutions
• The time constant
• Transient and steady state waveforms
![Page 25: Lecture 141 1st Order Circuits Lecture 142 1st Order Circuits Any circuit with a single energy storage element, an arbitrary number of sources, and an.](https://reader030.fdocuments.net/reader030/viewer/2022033103/56649d5d5503460f94a3bf34/html5/thumbnails/25.jpg)
Lecture 14 25
Transient Waveforms
• The transient portion of the waveform is a decaying exponential:
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Lecture 14 26
Steady State Response
• The steady state response depends on the source(s) in the circuit.
– Constant sources give DC (constant) steady state responses.
– Sinusoidal sources give AC (sinusoidal) steady state responses.
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Lecture 14 27
Computer RAM
• Voltage across a memory capacitor may look like this:
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Lecture 14 28
Low Pass Filter
• Voltage in the filter may look like this:
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Lecture 14 29
Sample and Hold
• The voltage in the sample and hold circuit might look like this: