Download 41.TELEC 310 Course Plan 2015

INSTITUTE OF INFORMATION AND COMMUNICATION TECHNOLOGY
UNIVERSITY OF SINDH
Course Plan of First Semester for the Academic Session 2016
TELEC-310 Circuit Analysis
C-H: 3 (Theory) + 1 (Lab)
BS (Telecommunication) Part-I
Name of teacher:
Shahid Hussain Larik, Assistant Professor
Recommended Books:
i) Fundamentals of Electronics (Circuits & Devices) (7th Edition or later
ii) Basic Electronics
(7TH or later Edition
by: Floyd)
by: Grobe)
COURSE TOPICS
Weeks required
to complete
History of Electronics and Electricity, basic electrical parameters and quantities, units,
scientific notation, metric prefixes, conversion of units, charge, Electron and hole
Week 1
Atom, atomic structure of (Insulators, Semiconductors, Conductors), Energy band diagrams
of (Insulators, Semiconductors, Conductors), Voltage, current, power, resistance,
conductance.
Week 2
Basic Electrical circuit and its components, switch, Open/Close switch, types of switches,
open circuit, close circuit, Resistor, resistor color code schemes, types of resistors (Fixed
and variable), types of variable resistor (Potentiometer & rheostat), types potentiometers
(linear & nonlinear potentiometers) and their symbols
Week 3
Ohms Law, relationship among resistance, voltage and current and corresponding graphical
representations, Problems/examples for (HW and CW).
Series circuits, characteristics of series circuit, ohms law in series circuit
Week 4
Voltage Dividers, Kirchhoff’s Voltage Law, applications of Series circuits, characteristics of
series circuit, application, advantages, disadvantages of series circuits.
Problem practice (HW and CW)
Week 5
Parallel circuits, identifying a parallel circuit, characteristics of parallel circuit, Ohm’s law
in parallel circuit, applications, advantages, disadvantages of parallel circuits.
Problem practice (Home-Work and Class-Work)
Week 6
Current Dividers, Kirchhoff’s Current Law, related problems,
Presentations, Problem practice and homework/assignments
Week 7
Series-Parallel circuits, identifying series and parallel resistors, total resistance, voltage and
current in Series-Parallel circuits, related problems, simplifying Series-Parallel circuits,
Loaded Voltage Dividers, Loading Effect. Problem practice (home-work/class-work)
Week 8
MID-TERM TEST will be scheduled in 2nd week of March 2015
Page 1 of 2
INSTITUTE OF INFORMATION AND COMMUNICATION TECHNOLOGY
UNIVERSITY OF SINDH
Course Plan for the Academic Session 2012
TELEC-310 Circuit Analysis
C-H: 3 (Theory) + 1 (Lab)
BS (Telecommunication) Part-I
Morning Program
Week 9
Week 10
Week 11
Week 12
Week 13
Week 14
Week 15
Week 16
FINAL TEST EXAMINATION to be held in the month of May 2011
Page 2 of 2
INSTITUTE OF INFORMATION AND COMMUNICATION TECHNOLOGY
UNIVERSITY OF SINDH
Course Plan for Academic Session 2014
SWEN-310
Basic Electronics C-H: 3 (Theory) + 1(Lab)
BS (Information Technology) Part-I
BS (Software Engineering) Part-I
Name of Teacher:
Morning Program
Evening Program
Shahid Hussain Larik, Assistant Professor
Recommended Books:
i)
ii)
iii)
iv)
Basic Electronics
Fundamentals of El: Circuits & Devices
Principles of Electronic Devices
Electronic Devices
(7TH or later Edition by: Grobe)
(7th Edition or later
by: Floyd)
(6TH or later Edition by Malvino)
(7th Edition or later
by: Floyd)
COURSE TOPICS
History of Electronics and Electricity, basic electrical parameters and quantities, units,
scientific notation, metric prefixes, conversion of units, charge, Electron and hole
Week No:
Week 1
Atom, atomic structure, insulators, semiconductors, conductors, voltage, current,
resistance, power, Electrical circuit, switch, open/close and short circuits
Week 2
Ohms Law, series circuits, characteristics (current, voltage, resistance and power) of
series circuit, parallel circuits, characteristics (current, voltage, resistance and power) of
parallel circuit, Advantages/disadvantages of series-parallel circuits, applications,
examples, problems, class-work, home-work and presentations
Week 3
Capacitors and Inductors, capacitors in series, capacitors in parallel, application of
capacitors, series parallel inductors, transformers and its types
Week 4
Introduction to semiconductor, silicon and germanium atoms, energy gap diagrams,
silicon crystal, difference between Si/Ge, conduction in semiconductor, doping,
(intrinsic/extrinsic) semiconductor, N-type, P-type semiconductors, pn-junction,
formation of depletion layer barrier potential, majority and minority carriers.
Week 5
Diode biasing, forward bias, reverse bias, diode equivalent circuit, diode approximations
(Ideal, practical and complete practical diode models), diode characteristics, threshold
voltage, forward conducting region, breakdown region,
Week 6
Diode applications: diode as a switch, diode as a rectifier, half-wave and full-wave
rectifications, effect of barrier potential, PIV, average value of both types of
rectifications, clipper and clamper circuits
Week 7
Zener diode, zener equivalent circuit, types of zener breakdown, V/I characteristics of
zener diode, voltage regulation, input/line regulation, load regulation, conditions under
which a zener diode regulates voltage. Examples/problems and Presentation
Week 8
MIDTERM TEST scheduled in 2nd week of March 2011
Page 1 of 2
BS (IT)/BS (SWENG) Part-I
Morning/Evening Program
Course Plan for Academic Session 2014
SWEN/ITEC-310
Basic Electronics C-H: 3(Theory) + 1(Lab)
Types and applications diode: Light Emitting Diode, V/I characteristics of LED,
applications of LED, photodiode, V/I characteristics and applications of photodiode
Week 9
varactor diode, Schottky diode, PIN diode, & Tunnel diode characteristics and
applications with related problems/examples
Week 10
Bipolar Junction Transistor (BJT) construction, standard symbol, transistor current and
voltage parameters, types of BJT, Transistor biasing, BJT characteristics/collector curves,
transistor dc current gains dc beta(β), dc alpha(α)
Week 11
Transistor biasing, transistor operating regions (saturation, cutoff and active), conditions
for saturation, cutoff and active regions, dc load line, dc operating point, BJT as a switch,
BJT as an amplifier, problem, class-work and home-work
Week 12
Biasing methods, base bias, emitter bias, voltage divider bias, collector feedback bias,
stability of Q-point, advantages, disadvantages of each biasing method and related
problems
Week 13
Transistor Configurations, Common-Emitter, Common-Collector and Common-base
configuration, DC/AC analysis of each configuration and related problems
Week 14
Introduction Junction-Field-Effect Transistor (JFET), basic construction and parameters,
JFET types (n-channel and p-channel), V/I characteristics and FET configuration,
Frequency response of FET
Week 15
Introduction to Metal Oxide Semiconductor Field Effect Transistor (MOSFET), basic
construction and operation, types of MOSFET, operating modes of MOS devices,
frequency response of MOS devices
Week 16
FINAL TEST EXAMINATION to be held in the month of May 2011
Page 2 of 2
INSTITUTE OF INFORMATION AND COMMUNICATION TECHNOLOGY
UNIVERSITY OF SINDH
Course Plan for Academic Session 2012
ITEC-310
Basic Electronics C-H: 3(Theory) + 1(Lab)
BS (Information Technology) Part-I
Name of Teacher:
Evening Program
Shahid Hussain Larik, Assistant Professor
Recommended Books:
i)
ii)
iii)
iv)
Principles of Electronic Devices
Basic Electronics
Fundamentals of El: Circuits & Devices
Electronic Devices
(6TH or later Edition by Malvino)
(7TH or later Edition by: Grobe)
(7th Edition or later
by: Floyd)
(7th Edition or later
by: Floyd)
COURSE TOPICS
History of Electronics and Electricity, basic electrical parameters and quantities, units,
scientific notation, metric prefixes, conversion of units, charge, Electron and hole
Week No:
Week 1
Atom, atomic structure, insulators, semiconductors, conductors, voltage, current,
resistance, power, Electrical circuit, switch, open/close and short circuits
Week 2
Ohms Law, series circuits, characteristics (current, voltage, resistance and power) of
series circuit, parallel circuits, characteristics (current, voltage, resistance and power) of
parallel circuit, Advantages/disadvantages of series-parallel circuits, applications,
examples, problems, class-work, home-work and presentations
Week 3
Capacitors and Inductors, capacitors in series, capacitors in parallel, application of
capacitors, series parallel inductors, transformers and its types
Week 4
Introduction to semiconductor, silicon and germanium atoms, energy gap diagrams,
silicon crystal, difference between Si/Ge, conduction in semiconductor, doping,
(intrinsic/extrinsic) semiconductor, N-type, P-type semiconductors, pn-junction,
formation of depletion layer barrier potential, majority and minority carriers.
Week 5
Diode biasing, forward bias, reverse bias, diode equivalent circuit, diode approximations
(Ideal, practical and complete practical diode models), diode characteristics, threshold
voltage, forward conducting region, breakdown region,
Week 6
Diode applications: diode as a switch, diode as a rectifier, half-wave and full-wave
rectifications, effect of barrier potential, PIV, average value of both types of
rectifications, clipper and clamper circuits
Week 7
Zener diode, zener equivalent circuit, types of zener breakdown, V/I characteristics of
zener diode, voltage regulation, input/line regulation, load regulation, conditions under
which a zener diode regulates voltage. Examples/problems and Presentation
Week 8
MIDTERM TEST scheduled in 2nd week of March 2011
Page 1 of 2
BS (Information Technology) Part-I
Evening Program
Course Plan for Academic Session 2012
ITEC-310
Basic Electronics C-H: 3(Theory) + 1(Lab)
Types and applications diode: Light Emitting Diode, V/I characteristics of LED,
applications of LED, photodiode, V/I characteristics and applications of photodiode
Week 9
varactor diode, Schottky diode, PIN diode, & Tunnel diode characteristics and
applications with related problems/examples
Week 10
Bipolar Junction Transistor (BJT) construction, standard symbol, transistor current and
voltage parameters, types of BJT, Transistor biasing, BJT characteristics/collector curves,
transistor dc current gains dc beta(β), dc alpha(α)
Week 11
Transistor biasing, transistor operating regions (saturation, cutoff and active), conditions
for saturation, cutoff and active regions, dc load line, dc operating point, BJT as a switch,
BJT as an amplifier, problem, class-work and home-work
Week 12
Biasing methods, base bias, emitter bias, voltage divider bias, collector feedback bias,
stability of Q-point, advantages, disadvantages of each biasing method and related
problems
Week 13
Transistor Configurations, Common-Emitter, Common-Collector and Common-base
configuration, DC/AC analysis of each configuration and related problems
Week 14
Introduction Junction-Field-Effect Transistor (JFET), basic construction and parameters,
JFET types (n-channel and p-channel), V/I characteristics and FET configuration,
Frequency response of FET
Week 15
Introduction to Metal Oxide Semiconductor Field Effect Transistor (MOSFET), basic
construction and operation, types of MOSFET, operating modes of MOS devices,
frequency response of MOS devices
Week 16
FINAL TEST EXAMINATION to be held in the month of May 2011
Page 2 of 2
INSTITUTE OF INFORMATION AND COMMUNICATION TECHNOLOGY
UNIVERSITY OF SINDH
Shahid Hussain Larik, Assistant Professor
Consultation/Counseling Hours
Day
Monday
Tuesday
Wednesday
Thursday
Friday
Time
12:20 pm  02:00 pm
09:00 am  10:40 am
01:10 pm  02:00 pm
12:20 pm  02:00 pm
09:50 am  10:40 am
11:30 pm  12:20 pm
09:00 am  09:50 am
Total (10) credit hours
INSTITUTE OF INFORMATION AND COMMUNICATION TECHNOLOGY
UNIVERSITY OF SINDH
Shahid Hussain Larik, Assistant Professor
Consultation/Counseling Hours
Day
Monday
Tuesday
Wednesday
Thursday
Friday
Time
12:20 pm  02:00 pm
09:00 am  10:40 am
01:10 pm  02:00 pm
12:20 pm  02:00 pm
09:50 am  10:40 am
11:30 pm  12:20 pm
09:00 am  09:50 am
Total (10) credit hours