Course Name: Analog Circuits and Systems through SPICE Simulation

Course abstract

This course is supposed to provide a comprehensive design example, utilizing (and building upon) the basic concepts covered in a UG Analog Circuits course. All the essential circuit fundamentals, like-DC biasing, small signal analysis, signal-swing, linearity, noise, frequency-response, single-stage, multi-stage and differential amplifier topologies, feedback topologies, stability and oscillation, operational-amplifier circuits (transistor level), will be applied to a practical design example. In the beginning of each module, the required theoretical background will be covered in brief, before going towards the circuit design and simulation. The course will start with the description of the overall target system to be simulated, namely, an Analog Front-end for ECG signal acquisition. Higher level specification of the entire system will be discussed and linked to the specifications of the essential building blocks. The initial modules will start from components like basic amplifier topologies, where the basic circuit concepts will be demonstrated through simulation. The course will then move towards the design of building blocks of the target system, making use of all the concepts covered during the initial phase. Finally some interesting design challenges will be addressed, which may be particular to the target application. This course is expected to be a very comprehensive supplement to course on Analog Circuits and can be instrumental in stimulating interest and developing aptitude among the participants. Open source simulation platforms like PSPICE or LT-SPICE will be used, so that all participants can carry out the simulations described in the course. In line with the present industry scenario, we will mostly rely on MOSFET circuits. In the simulation examples, a clear distinction between bred-board circuit design (commonly practiced in a UG course) and integrated circuit design will be made at all stages.


Course Instructor

Media Object

Prof. Mrigank Sharad

Prof. Mrigank Sharad received BTech and MTech degrees in Electronics from IIT Kharagpur in 2010 and PhD degree from Purdue University, USA in 2014. He received highest honors for his academic performance and projects at IIT, including institute level Gold Medal. His PhD work contributed to several research proposal involving DARPA, SRC, NIST and D.o.D.(USA) and fetched Innovation Award from Purdues Entrepreneurship Center. Mrigank joined IIT Kharagpur in 2015 as a faculty and has been actively involved in developing teaching and learning platforms for UG and PG students of the institute. He has also been a teacher in a recent NMEICT, Mixed-Signal Analog Design, involving more than 6000 participants from all across India. Mrigank bagged the Best Teaching Feedback (for Analog Circuit Course, Spring, 2015), among all courses with 100+ students at IIT Kharagpur. Mriganks research interest lie in the domain of application specific mixed signal design and associated data processing. He has published more than 50 papers in referred conferences and journals.


More info

Teaching Assistant(s)

Shouharda Ghosh

BE/B.Tech

SHIVAM KUMAR

BE/B.Tech

 Course Duration : Jan-Apr 2020

  View Course

 Enrollment : 18-Nov-2019 to 03-Feb-2020

 Exam registration : 16-Dec-2019 to 20-Mar-2020

 Exam Date : 25-Apr-2020

Enrolled

2159

Registered

23

Certificate Eligible

9

Certified Category Count

Gold

0

Silver

1

Elite

0

Successfully completed

8

Participation

9

Success

Elite

Silver

Gold





Legend

AVERAGE ASSIGNMENT SCORE >=10/25 AND EXAM SCORE >= 30/75 AND FINAL SCORE >=40
BASED ON THE FINAL SCORE, Certificate criteria will be as below:
>=90 - Elite + Gold
75-89 -Elite + Silver
>=60 - Elite
40-59 - Successfully Completed

Final Score Calculation Logic

  • Assignment Score = Average of best 8 out of 12 assignments.
  • Final Score(Score on Certificate)= 75% of Exam Score + 25% of Assignment Score
Analog Circuits and Systems through SPICE Simulation - Toppers list

NIMISH SEHGAL 75%

Enrollment Statistics

Total Enrollment: 2159

Registration Statistics

Total Registration : 59

Assignment Statistics




Assignment

Exam score

Final score

Score Distribution Graph - Legend

Assignment Score: Distribution of average scores garnered by students per assignment.
Exam Score : Distribution of the final exam score of students.
Final Score : Distribution of the combined score of assignments and final exam, based on the score logic.