ECEN 607 Advanced Analog Circuit Design Techniques

Spring 2017

Course Outline, and remarks

Final Projects                                      


       Syllabus 2017



Lectures Lect 1 Introduction and technology size considerations   , ref1, ref2 ,ref3,ref4, ref5, ref 6 on extracting transistor data

Lect. 1 part 2 Conventional Op Amps, example of two stage amplifier using ACM model

Lect 1D Stability considerations

Lect 1E Linearity Metrics

Lect 1C Op Amp Limitations

Lect 1A 3 dB time constant computation

Lect 1B Op Amp Macromodeling

LectNested Gm-C Amplifiers: Examples and recent settling time techniques

Lect   2b Nested Gm-C For large load capacitance

Lect   2c Inverse Nested Gm-C

Lect 3 Line Drivers ( Output Amplifiers)

Lect 4 Bandgap and references

Lect 5 Low Voltage ( LV)Cells ref

Lect  5A LV Current Source Implementation

Lect 5B Flipped Voltage Follower and Applications

Lect 6 Rail-to-rail Amplifiers

Lect 7 Fully Balanced Fully Symmetric Circuits; an example

Lect 8    Bulk Driven Circuits; a bulk bias design

Lect 9 Floating Gate Circuits, application, ref

Lect 10 Noise: Fundamentals

Lect 11 LDO

Lect 13 Class D amplifiers

Lect 14A  Multipliers

Lect 14 Linearized OTAs

Lect 15 Negative Capacitor and Negative Resistor Implementations. Applications,

Lect 16 Common Mode Feedback Fundamentals and Implementations, ref












 HW 1 sol 1 sol2 HW 2  sol HW 3 HW 4 sol HW 5 HW 6  HW 7

Quizzes and Exams Old Exam 1 old Exam   old exam 1  2 2B  Exam1 Exam 1 2014 prob solution