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MOHAMAD MEHDI AHMADI
  Courses 

 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 AC-Coupled 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 Electrode-Electrolyte 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 wave-shaping 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 AC-Coupled 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


 (Design of Integrated Biomedical Circuits & Systems)(FALL_2015)

Aims:

To learn the design of integrated circuits and their applications in medicine

Syllabus:

  • An introduction to MOS device physics and CMOS technology
  • Current mirrors
  • Voltage and current references
  • Design of basic digital CMOS gates
  • Single-stage and cascode amplifiers
  • CMOS differential pair
  • Frequency response of single-stage and differential CMOS amplifiers
  • CMOS Operational amplifiers
  • Noise in electronic devices and circuits
  • Low-noise bioamplifiers
  • Neural Stimulation Circuits
  • An introduction to data converters
  • Delta-Sigma Data Converters and their application in Medicine
  • Design of electronic potentiostats for biochemical sensors

Text Book:

  • Design of Analog CMOS Integrated Circuits by B Razavi
  • Analysis and Application of Analog Electronic Circuits to Biomedical Instrumentation
  • Ultra Low Power Bioelectronics: Fundamentals, Biomedical Applications, and Bio-Inspired Systems


 Electronics (I)(FALL_2015)

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


 Pulse Technique(FALL_2015)

Aims:

To learn the fundamentals of pulse and digital circuits

Syllabus:

  • Review of some of the basic concepts
  • Linear wave-shaping 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


 
 
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