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HU Credits:
4
Degree/Cycle:
1st degree (Bachelor)
Responsible Department:
Applied Physics
Semester:
1st Semester
Teaching Languages:
Hebrew
Campus:
E. Safra
Course/Module Coordinator:
Mr. Daniel Adar
Coordinator Office Hours:
Coordinate in advance
Teaching Staff:
Mr. Adar Daniel,
Mr. Eran Maday
Course/Module description:
Basics in solid state physics, the CMOS IC Design Process, Analog Signal Processing, Semiconductor and Silicon overview
The MOSFET Transistor, Cases: Accumulation, Depletion and Strong Inversion, The Threshold voltage, IV Characteristic of MOSFET, MOSFET Operation in triode region, The Saturation region, CMOS Technology
SPICE Modeling of the MOSFET, Simple MOS Large-Signal Model, Small-Signal Model for the MOS transistor, CMOS Passive Components, Examples of MOS modeling using SPICE: IV, DC, AC and Transient Analysis
Inverter, CMOS Statics Circuits, Reading Logic Gates, Designing Logic Gates, Interconnects, Steering Logic, Flip Flop Design
MOS Switch, Active Resistor/Load, Currents Sinks and Sources, The Current Mirrors and Current Amplifiers, Current and Voltage References, Geometrical Consideration in CMOS Design
Layout of Simple Current Mirror
Basic CMOS Operational Amplifier, Characterizing the Op Amp, Operational Transconductance Amplifiers
Neurons-transistors interfacing, Biosensors based transistors
Course/Module aims:
See learning outcomes
Learning outcomes - On successful completion of this module, students should be able to:
Theoretical knowledge required for integrated circuit designer CMOS technology with practical application of knowledge with useful circuit design. Integral part of the course will be devoted to the purchase of practical experience in various circles planning processes (behavioral, schematic electrical and physical) working with a variety of design tools, simulation and verification of the design. Students recognize the properties considerations integrated circuit design and chip building blocks analogs and digital sub-systems used to construct useful as an operational amplifier analog.
Attendance requirements(%):
0
Teaching arrangement and method of instruction:
Frontal lecture + Exercise
Course/Module Content:
Chapter 1. Introduction to Integrated Circuits
Chapter 2. MOS transistor and their layout
Chapter 3. MOS transistor models and advanced physical affects
Chapter 4. Interconnects and passive devices
Chapter 5. Memories elements, implantation, timing analysis and metastability
Chapter 6.
Building blocks for analog integrated circuits and their implementation
Chapter 7. Operational Amplifiers
Chapter 8. Using op-amp in LDO circuit
Required Reading:
NA
Additional Reading Material:
1. CMOS Analog Circuit Design by Phillip E. Allen , Douglas R. Holberg , Allen ,
2. Introduction to CMOS OP-AMPs and Comparators Roubik Gregorian
3. Design of Analog CMOS Integrated Circuits Behzad Razavi
4. CMOS Circuit Design, Layout, and Simulation, Second Edition by R. Jacob Baker
5. Phase-Locked Loops: Design, Simulation, and Applications by Roland E. Best
6. CMOS Mixed-Signal Circuit Design by R. Jacob Baker.
7. CMOS VLSI Design: A Circuits and Systems Perspective (3rd Edition) by Neil H.E. Weste , David Harris
8. IC Mask Design: Essential Layout Techniques by Christopher Saint, Judy Saint
Grading Scheme :
Written / Oral / Practical Exam / Home Exam 50 %
Essay / Project / Final Assignment / Referat 25 %
Submission assignments during the semester: Exercises / Essays / Audits / Reports / Forum / Simulation / others 25 %
Additional information:
NA
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