Transcript pptx

Tribhuvan University
Institute of Engineering
Pulchowk Campus
EG 572EX
Jyoti Tandukar, Ph.D.
Associate Professor
[email protected]
http://jyoti.tandukar.net/elckt/

Lecture
Sunday
Wednesday

Tutorial
Sunday
Sunday

10:15 - 11:55
1:35 – 2:25
11:55 - 12:45
4:10 - 4:55
Lab
Wednesday
2:25 - 4:55

Class Test

Assignments

Attendance/Performance
10
5
5
---20

Date for Class Test
will be announced upon getting academic calendar

Date for the Retest
will be announced upon getting academic calendar

Assignments to be submitted
will be announced as we progress

Surprise Tests
will be conducted during lecture hours
The performance in the lecture class, surprise test as well
as attendance of the students will be evaluated

Be regular, punctual and prepared in the class

Actively participate in the lectures

Discuss your ideas / Ask questions

Refer to appropriate books and websites for details

Don't spend undue amount of time on minor points

Do all submission properly and on time

Experiment with understanding,
not by merely following the given steps
Recommended text book, but may be a little
advanced at this stage. The students should
not get discouraged for not being able to
follow this book properly.

Allen and Holberg
CMOS Analog Circuit Design

Sedra and Smith
Microelectronic Circuits

Coughlin, Driscoll (and also same title by Gayakwad)
Op-amp and Linear ICs

Paul Horowitz, Winfield Hill
The Art of Electronics

Millman and Halkias
Integrated Electronics
You will find many copies of this book
in the library
Consider buying one of these two
as a general reference book
in Electronics

Semiconductor Devices
Students learn about diodes, transistors and
related circuits

Electronic Circuit I
Enhance the knowledge by exposing the students
to larger and more complex circuits

Students have already acquired the concept of opamp and its simple applications

Electronic Circuit I deals with various aspects of
op-amp in detail including its internal circuitry

Electronic Circuit I also covers widely applied
electronic blocks such as power supplies, power
amplifiers and oscillators

Circuit Theory in Electronics is highly interrelated

Students are required to possess adequate
fundamental knowledge to fully understand this
subject

Refresh understanding of circuit theory by
revising topics on diodes, transistors, op-amp,
frequency response
In the lack of sufficient background, this subject
may prove to be extremely difficult
 BUT
once you have the foundation, this is one of the
most exciting areas of Electronics to explore!

Here are few things you may want to know beyond
what is taught in class.

Standard Values: 10 12 15 18 22 27 33 39 47 56 68 82
Gate made of transistors
Chip
Wafer
Packaged
chip

45 nm process technology

731 million transistors

263 mm2 die size

2.66 GHz to 3.33 GHz

32 KB L1 instruction cache per core

32 KB L1 data cache per core

256 KB L2 cache (combined instruction and data) per core

8 MB L3 (combined instruction and data) "inclusive",
shared by all cores