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Page 1
LaPlace Transform in Circuit Analysis
Objectives:
•Calculate the Laplace transform of common functions
using the definition and the Laplace transform tables
•Laplace-transform a circuit, including components with
non-zero initial conditions.
•Analyze a circuit in the s-domain
•Check your s-domain answers using the initial value
theorem (IVT) and final value theorem (FVT)
•Inverse Laplace-transform the result to get the time-
domain solutions; be able to identify the forced and
natural response components of the time-domain solution.
(Note – this material is covered in Chapter 12 and Sections
13.1 – 13.3)
Page 2
LaPlace Transform in Circuit Analysis
Objectives:
•Calculate the Laplace transform of common functions
using the definition and the Laplace transform tables
•Laplace-transform a circuit, including components with
non-zero initial conditions.
•Analyze a circuit in the s-domain
•Check your s-domain answers using the initial value
theorem (IVT) and final value theorem (FVT)
•Inverse Laplace-transform the result to get the time-
domain solutions; be able to identify the forced and
natural response components of the time-domain solution.
(Note – this material is covered in Chapter 12 and Sections
13.1 – 13.3)
LaPlace Transform in Circuit Analysis
What types of circuits can we analyze?
•Circuits with any number and type of DC sources and
any number of resistors.
•First-order (RL and RC) circuits with no source and with a
DC source.
•Second-order (series and parallel RLC) circuits with no
source and with a DC source.
•Circuits with sinusoidal sources and any number of
resistors, inductors, capacitors (and a transformer or op
amp), but can generate only the steady-state response.
Page 3
LaPlace Transform in Circuit Analysis
Objectives:
•Calculate the Laplace transform of common functions
using the definition and the Laplace transform tables
•Laplace-transform a circuit, including components with
non-zero initial conditions.
•Analyze a circuit in the s-domain
•Check your s-domain answers using the initial value
theorem (IVT) and final value theorem (FVT)
•Inverse Laplace-transform the result to get the time-
domain solutions; be able to identify the forced and
natural response components of the time-domain solution.
(Note – this material is covered in Chapter 12 and Sections
13.1 – 13.3)
LaPlace Transform in Circuit Analysis
What types of circuits can we analyze?
•Circuits with any number and type of DC sources and
any number of resistors.
•First-order (RL and RC) circuits with no source and with a
DC source.
•Second-order (series and parallel RLC) circuits with no
source and with a DC source.
•Circuits with sinusoidal sources and any number of
resistors, inductors, capacitors (and a transformer or op
amp), but can generate only the steady-state response.
LaPlace Transform in Circuit Analysis
What types of circuits will Laplace methods allow us to
analyze?
•Circuits with any type of source (so long as the function
describing the source has a Laplace transform), resistors,
inductors, capacitors, transformers, and/or op amps; the
Laplace methods produce the complete response!
Page 4
LaPlace Transform in Circuit Analysis
Objectives:
•Calculate the Laplace transform of common functions
using the definition and the Laplace transform tables
•Laplace-transform a circuit, including components with
non-zero initial conditions.
•Analyze a circuit in the s-domain
•Check your s-domain answers using the initial value
theorem (IVT) and final value theorem (FVT)
•Inverse Laplace-transform the result to get the time-
domain solutions; be able to identify the forced and
natural response components of the time-domain solution.
(Note – this material is covered in Chapter 12 and Sections
13.1 – 13.3)
LaPlace Transform in Circuit Analysis
What types of circuits can we analyze?
•Circuits with any number and type of DC sources and
any number of resistors.
•First-order (RL and RC) circuits with no source and with a
DC source.
•Second-order (series and parallel RLC) circuits with no
source and with a DC source.
•Circuits with sinusoidal sources and any number of
resistors, inductors, capacitors (and a transformer or op
amp), but can generate only the steady-state response.
LaPlace Transform in Circuit Analysis
What types of circuits will Laplace methods allow us to
analyze?
•Circuits with any type of source (so long as the function
describing the source has a Laplace transform), resistors,
inductors, capacitors, transformers, and/or op amps; the
Laplace methods produce the complete response!
LaPlace Transform in Circuit Analysis
Definition of the Laplace transform:
Note that there are limitations on the types of functions for
which a Laplace transform exists, but those functions are
“pathological”, and not generally of interest to engineers!
?
?
?
? ?
0
) ( ) ( )} ( { dt e t f s F t f
st
L
Page 5
LaPlace Transform in Circuit Analysis
Objectives:
•Calculate the Laplace transform of common functions
using the definition and the Laplace transform tables
•Laplace-transform a circuit, including components with
non-zero initial conditions.
•Analyze a circuit in the s-domain
•Check your s-domain answers using the initial value
theorem (IVT) and final value theorem (FVT)
•Inverse Laplace-transform the result to get the time-
domain solutions; be able to identify the forced and
natural response components of the time-domain solution.
(Note – this material is covered in Chapter 12 and Sections
13.1 – 13.3)
LaPlace Transform in Circuit Analysis
What types of circuits can we analyze?
•Circuits with any number and type of DC sources and
any number of resistors.
•First-order (RL and RC) circuits with no source and with a
DC source.
•Second-order (series and parallel RLC) circuits with no
source and with a DC source.
•Circuits with sinusoidal sources and any number of
resistors, inductors, capacitors (and a transformer or op
amp), but can generate only the steady-state response.
LaPlace Transform in Circuit Analysis
What types of circuits will Laplace methods allow us to
analyze?
•Circuits with any type of source (so long as the function
describing the source has a Laplace transform), resistors,
inductors, capacitors, transformers, and/or op amps; the
Laplace methods produce the complete response!
LaPlace Transform in Circuit Analysis
Definition of the Laplace transform:
Note that there are limitations on the types of functions for
which a Laplace transform exists, but those functions are
“pathological”, and not generally of interest to engineers!
?
?
?
? ?
0
) ( ) ( )} ( { dt e t f s F t f
st
L
LaPlace Transform in Circuit Analysis
Aside – formally define the “step function”, which is often
modeled in a circuit by a voltage source in series with a
switch.
When K = 1, f(t) = u(t), which we call the unit step function
0 ,
0 , 0 ) (
? ?
? ?
t K
t t f
K
t
f(t) = Ku(t)
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