Download EL2003 - Electric Circuits#

A.1. EL2003 Electric Circuits
Course
Code :
Creadits :
Semester : 3
3 SKS
EL2003
Sifat kuliah
Kelompok Kuliah
Course Title (Indonesian)
Nama Matakuliah
Course Title (English)
Nama Matakuliah
Short Description
Silabus ringkas
Goals
Tujuan Instruksional
Umum (TIU)
Offered To(PS Peserta)
Related Courses
KBK/Bidang
Keahlian:
Sifat:
Compulsory
Electrical Engineering
Kuliah
MK Dasar Engineering
Rangkaian Elektrik
Electric Circuits
Kuliah ini membahas dasar teori rangkaian, rangkaian orde 1 dan 2, sinyal
sinusoidal, rangkaian gandeng magnetic, teori graph, transformasi Lapplace,
dan persamaan keadaan.
Tujuan kuliah ini adalah memberikan pemahaman yang kokoh tentang teori
rangkaian yang diperlukan semua sarjana teknik elektro.
Dept/PS: EL / EL, EP, ET, EC
Fak: Teknologi Industri
ITB
1.
Prerequisit/ Corequisit/ Prohibition
2
Prerequisit/ Corequisit/ Prohibition
Knowledge = 60 %
Sarana/ x Papantulis/white board
Percentage
Skill = 30 %
Media
x LCD/Infocus
Attitude = 10 %
x Komputer (lab)
Course (kuliah) = 3
courseware
Activity (hour/week)
Tutorial (Responsi)= 2
e-learning
Lab Works (Prakt)= 1
Lainnya ..
UTS = 30 %
Atau Ya/tidak
Assessment/Penilaian
UAS = 50 %
Atau Ya/tidak
Tugas = 20 %
Atau Ya/tidak
1. Desoer and Kuh, Basic Circuit Theory, McGraw Hill , latest ed.
References/Bibliography
2. Chua, et.al., Linear and Nonlinear Circuit Theory, McGraw Hill, latest ed.
Strategi Pedagogi dan Pesan Untuk Pengajar:
Tekankan pemahaman konsep bukan hapalan atau kemampuan mengerjakan soal perhitungan.
Uraian Rinci Materi Kuliah
Week#
Topics
Sub Topics
Goals
1.
Hukum Kirchhoff
KVL dan KCL
2.
Elemen Rangkaian
Komponen dan sumber
3.
Rangkaian sederhana
Seri dan paralel
4.
Rangkaian orde 1
Rangkaian RC dan RL
5.
Rangkaian orde 2
Rangkaian RLC
6.
Rangkaian linier time
invariant
Sinusoidal steady-state
11.
Rangkaian linier
time-invariant
Analisis sinyal
sinusoidal
Elemen dan
rangkaian gandeng
Network dan Teori
Tellegen
Persamaan keadaan
Menjelaskan konsep dasar
teori rangkaian 7
Menjelaskan konsep dasar
rangkaian
Menjelaskan konsep rangkaian
ekivalen
Menjelaskan kinerja rangkaian
orde 1
Menjelaskan kinerja rangkaian
orde 2
Menjelaskan konsep keadaan
12.
Transformasi Laplace
Transformasi Laplace
13.
Network Theorems
14.
Network Theorems
Teorema dan rangkaian
ekivalen
Konsep pole dan zero
15.
Two Port Network
Konsep ekivalensi
16.
-
-
7.
8.
9.
10.
Konsep gandeng
magnetik dan elektrik
Graph concept
Konsep keadaan
Activity
K/P/R/X/
U
K
K
K
K
K
K
Menjelaskan
konsep
sinusoidal, fasor, dan sifatnya.
UTS
Menjelaskan kinerja rangkaian
gandeng
Menjelaskan konsep jaringan
dan teori Tellegen
Menjelaskan konsep keadaan
dan persamaan keadaan
Menjelaskan
transformasi
Laplace dan sifatnya
Menjelaskan teorema jaringan
K
Menjelaskan konsep pole dan
zero
Menjelaskan konsep two port
network dan penggunaannya
UAS
K
U
K
K
K
K
K
K
U
semester hours
EL 2003
Credit
3
Electric circuits
The operational amplifier, energy storage elements, the complete response of
RL and RC circuits, the complete response of circuits with two energy
storage elements, sinusoidal steady state analysis, AC steady state power,
three phase circuits, frequency response, introduction to electric machines.
Goals
To develop skills in obtaining steady state and transient solutions to
electrical networks
Course
Program
ABET
Objectives
Objectives
Criterion
1. Students learn basic laws of circuit theory
3a
2. Students learn to analyize resistive circuits
3.
4.
1.
Prerequisites
2.
1. Electricity and magnetism
Prerequisites by topics
2. Solution of linear algebraic equations.
3. Matrix operationals and inverse of a matrix
4. Complex variables
5. Differential calculus
6. Integral calculus.
1. Engineering mathematics I, EL 2007 EE Laboratory I
Corequistes
Course No.
Course Title
Course Description:
(max. 25 words)
Text book
Other References
Syllabus
ISBN
1.
2.
1.
Circuits variables, voltages, current, power and energy; Units;
Voltage and current sources; Dependent and independent sources;
Circuits elements, resistance.
2.
Modeling of practical circuits; Ohm’s law and kirchooff’s laws;
Solution of simple circuits with both dependent and independent
sources.
3.
Series-parallel resistance circuits and their equivalents; Voltage and
current divider circuits; Delta-Wye equivalent circuits; Wheatstone
bridge.
4.
Techniques of general DC circuits analysis; Introduction to
topological concepts
5.
Node-voltage method; Mesh-current method; source transformations.
6.
Thevenin and Norton equivalents; Maximum power transfer.
7.
Operational amplifiers; inverting, non-inverting, summing and
difference amplifiers circuits; Equivalents circuits of Op-Amp circuits;
Common-mode rejection ratio.
8.
Properties of inductances and capacitances; Series-parallel
combinations of inductances and capacitances; Concepts of transient
and steady state response.
9.
Review of complex variables; Indtroduction to sinusoidal steady state
analysis; Sinusoidal sources
10.
Phasors, Impedance, Admittance, Reactance, Susceptance; Seriesparallel and Delta-Wye simplifications.
11.
Sinusoidal steady state power calculations; RMS values; Real and
reactive power.
12.
13.
14.
15.
16.
17.
Class Schedule
Required Home Work
Computer Usage
Laboratory Project
Term Paper Required
ABET category
Prepared By
Date
Balanced 3-phases voltages, analysis of the Y-Y circuits, analysis of
Y-  circuit, power calculation in 3 phases circuits, power measurement.
Introduction to transient response; source-free response of circuits,
solution to 1st order diff eq; response; energy.
RL and RC with dependent sources; Responses of RL/RC circuits to
constant sources; complete solution; unit step responses; Circuits with
multiple sources; responses to non-constant sources.
Differential equations for circuits with two energy storage elements;
solution of the 2nd order ODE, the natural response; unforced parallel
RLC over damped.
Unforced parallel RLC critically damped and under damped; forced
response
Complete response of RLC circuit; roots in complex plane; frequency
response; the decibel; Bode diagram; phase angle plots.
Lectures
3
hours per week
Tutorials
1
hours per week
Laboratories
meetings/experiments, each of
Recitation
times, each of
hours per week
Use of P-Spice in solving the assigned homework
See course EL 207 EE Laboratory I
Engineering Sciences
2.5
credit
Engineering Designs
0.5
credit
Dr. Ir. Suhartono T and Dr. Ir. Sudaryatno S
6 March, 2002
hours
hours
A.2. EL2003 Rangkaian Elektrik
Kredit :
Semester : 3 KBK/Bidang
Kode
Sifat:
3 SKS
Wajib
Kuliah
Keahlian:
EL2003
Teknik Elektro
Kuliah
Sifat kuliah
MK Dasar Engineering
Kelompok Kuliah
Course Title
Rangkaian Elektrik
(Indonesian)
Nama Matakuliah
Electric circuits
Course Title
(English)
Nama Matakuliah
The operational amplifier, energy storage elements, the complete response of
Short Description
RL and RC circuits, the complete response of circuits with two energy storage
Silabus ringkas
elements, sinusoidal steady state analysis, AC steady state power, three phase
circuits, frequency response, Introduction to electric machines.
To develop skills in obtaining steady state and transient solutions to electrical
networks
Goals
Tujuan
Instruksional Umum
(TIU)
Dept/PS:
Offered To(PS
EL./………/……….
Peserta)
MA2017 / EL2200
Related Courses
Engineering Mathematics I
2, EL2007 EE Core
Laboratory I
3.
4.
...
Percentage
Activity (hour/week)
Assessment/Penilaia
n
Knowledge = ……%
Skill =
Attitude =
Course (kuliah) =
Tutorial
(Responsi)=
Lab Works
(Prakt)=
Others
:………….=
UTS =
……%
……%
…
…
…
Fak: FTI
ITB
Corequisit
Corequisit
Prerequisit/ Corequisit/
Prohibition
Prerequisit/ Corequisit/
Prohibition
Prerequisit/ Corequisit/
Prohibition
Sarana x Papantulis/white
/
board
Media
LCD/Infocus
Komputer (lab)
courseware
e-learning
Lainnya ..
…
……%
Atau Ya/tidak
UAS = ……%
Tugas = ……%
Atau Ya/tidak
Atau Ya/tidak
Others:………… ……%
…
References/Bibliogra
phy
1.
2.
3.
4
5
Strategi Pedagogi dan Pesan Untuk Pengajar:
Uraian Rinci Materi Kuliah
Mg#
Topik
Sub Topik
1.
Introduction
Circuits variables,
voltages, current, power
and energy; Units;
Voltage and current
sources; Dependent and
independent sources;
Circuits elements,
resistance.
2.
Modeling
Modeling of practical
circuits; Ohm’s law and
kirchooff’s laws;
Solution of simple
circuits with both
dependent and
independent sources.
3.
Series-Parallel
Series-parallel resistance
circuits and their
equivalents; Voltage and
current divider circuits;
Delta-Wye equivalent
circuits; Wheatstone
bridge.
4.
DC Analysis
Techniques of general
DC circuits analysis;
Introduction to
topological concepts
5.
6.
7.
Operational
Amplifier
8.
9.
Capacitors &
Inductors
Node-voltage method;
Mesh-current method;
source transformations.
Thevenin and Norton
equivalents; Maximum
power transfer.
Operational amplifiers;
inverting, non-inverting,
summing and difference
amplifiers circuits;
Equivalents circuits of
Op-Amp circuits;
Common-mode rejection
ratio.
Properties of inductances
and capacitances; Seriesparallel combinations of
Tujuan Instruksional
Khusus (TIK)
Activity
K/P/R/X/
U
UTS
U
Mg#
10.
Topik
Sinusoidal Steady
State Analysis
11.
12.
13.
3-phase Circuits
Sub Topik
Activity
K/P/R/X/
U
UAS
U
inductances and
capacitances; Concepts
of transient and steady
state response.
Review of complex
variables; Indtroduction
to sinusoidal steady state
analysis; Sinusoidal
sources
Phasors, Impedance,
Admittance, Reactance,
Susceptance; Seriesparallel and Delta-Wye
simplifications.
- Sinusoidal steady state
power calculations; RMS
values; Real and reactive
power.
Balanced 3-phases
voltages, analysis of the
Y-Y circuits, analysis of
Y-  circuit, power
calculation in 3 phases
circuits, power
measurement.
14.
Introduction to transient
response; source-free
response of circuits,
solution to 1st order diff
eq; response; energy.
15.
RL and RC with
dependent sources;
Responses of RL/RC
circuits to constant
sources; complete
solution; unit step
responses; Circuits with
multiple sources;
responses to nonconstant sources.
16.
Tujuan Instruksional
Khusus (TIK)
Differential equations for
circuits with two energy
storage elements;
solution of the 2nd order
ODE, the natural
response; unforced
parallel RLC over
damped.
18.
Unforced
parallel RLC
critically damped
and under damped;
forced response
Mg#
Topik
Sub Topik
19.
*
Complete
response of RLC
circuit; roots in
complex plane;
frequency
response; the
decibel; Bode
diagram; phase
angle plots.
Tujuan Instruksional
Khusus (TIK)
Activity
K/P/R/X/
U