


Mohamad Mehdi Ahmadi


Courses

Integrated Circuit Design and its Application in Medicine(FALL_2017)
Aims:
To learn the design of integrated circuits and their applications in medicine
Syllabus:
 MOS device structure and physics
 CMOS fabrication and layout
 MOSFET switches and digital gates
 Current mirrors and biasing techniques
 Current and voltage references
 Singlestage amplifiers
 Differential amplifiers
 Frequency response
 CMOS operational amplifiers
 Stability and frequency compensation
 Noise in Electronic Circuits
 Fundamentals of data converters
 Power amplifiers and their applications in medicine
 Design of electronic potentiostats for biochemical sensors
Text Book:
 B. Razavi, Design of Analog CMOS Integrated Circuits, McGrawHill, 2000.
 T. C. Carusone, D. Johns and K. Martin, Analog Integrated Circuit Design, (2nd Edition), Wiley, 2011

Electronics (II)(SPRING_2017)
Aims:
In this course, the students learn the basics of analog (integrated) circuit design.
Syllabus:
 A review on Electronics 1 and ACCoupled Amplifiers.
 Cascode amplifier and current sources/mirrors
 Differential Stage/Amplifier
 Output stages and power amplifiers
 Operational Amplifiers
 Feedback in electronic circuits
 An introduction to MOSFET transistors and CMOS analog circuits
Text Book:
 Fundamentals of Microelectronics by Behzad Razavi
 Analysis and Design of Analog Integrated Circuits (4th Edition) by P. Gray, P. Hurst, S Lewis and R. Meyer

Implantable Biomedical Microsystems(SPRING_2017)
Aims:
The goal of this coarse is to introduce the fundamentals of the design of implantable biomedical microsystems
Syllabus:
 Introduction to implantable medical microsystems
 An introduction to microfabrication
 An introduction to CMOS integrated circuits
 Analysis of ElectrodeElectrolyte Interface
 Electrochemical Biosensors
 Microelectrode Arrays for Neural Recording and Stimulation
 Neural Recording Microsystems
 Neural Stimulation Microsystems
 Energy harvesting for IBMs
 Inductive power transfer to IBMs
 Data transmission methods to/from IBMs
 Integration and Packaging
 Safety Issues
Text Book:
 K. Iniewski (editor), VLSI Circuits for Biomedical Applications, Artech House, 2008.
 Microsystem Design by Stephen Senturia
 J. Webster (editor), Medical Instrumentation, Application and Design, (4th edition), Wiley, 2010.

Electronics (I)(FALL_2016)
Aims:
To learn the basics of electronic devices and circuits
Syllabus:
 An introduction to the physics of semiconductors and PN junction
 Diode circuits
 An introductions to the physics of a BJT transistor
 Bipolar amplifiers
 An introduction to FET
Text Book:
 Fundamentals of Microelectronics by Behzad Razavi
 Microelectronic Circuits by Sedra and Smith

Integrated Circuit Design and its Application in Medicine(FALL_2016)
Aims:
Syllabus:
Text Book:

Pulse Technique(FALL_2016)
Aims:
To learn the fundamentals of pulse and digital circuits
Syllabus:
 Review of some of the basic concepts
 Linear waveshaping circuits
 Design of logic gates with diode and transistor
 The response of operational amplifiers to pulsed inputs
 Multivibrator circuits
 waveform generators
Text Book:
 Microelectronic Circuits by Sedra and Smith
 Solid state pulse circuits by David Bell

(Implantable Biomedical Microsystems)(SPRING_2016)
Aims:
Syllabus:
Text Book:

Electronics (II)(SPRING_2016)
Aims:
In this course, the students learn the basics of analog (integrated) circuit design.
Syllabus:
 A review on Electronics 1 and ACCoupled Amplifiers.
 Cascode amplifier and current sources/mirrors
 Differential Stage/Amplifier
 Output stages and power amplifiers
 Operational Amplifiers
 Feedback in electronic circuits
 An introduction to MOSFET transistors and CMOS analog circuits
Text Book:
 Fundamentals of Microelectronics by Behzad Razavi
 Analysis and Design of Analog Integrated Circuits (4th Edition) by P. Gray, P. Hurst, S Lewis and R. Meyer












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