
25761: Analog Electronics
Course Name: Analog Electronics
Course Number: 25761
Prerequisite(s): 25032 (Electronics 2) and 25203 (Electronics Lab 2)
Co-requisite(s): -
Units: 3
Level: Undergraduate
Last Revision: Summer 2020
Description:
Syllabus:
Course Number: 25761
Prerequisite(s): 25032 (Electronics 2) and 25203 (Electronics Lab 2)
Co-requisite(s): -
Units: 3
Level: Undergraduate
Last Revision: Summer 2020
Description:
In the Analog Electronics course, the high-frequency model of the bipolar transistors (BJT) and MOS are introduced. Next, the frequency response of bipolar and CMOS amplifiers (CE, CG, CS, CC, CB, CE, etc) are analyzed. The techniques for estimating the frequency response of amplifiers are introduced. These methods estimate the frequency response by recognizing instability factors at high frequencies. Next, various methods regarding compensation of the frequency response, stabilizing and improving their frequency response are presented. The frequency responses of the BJT and CMOS Operational Amplifiers are discussed in detail and several key OP-Amp specifications are defined. Then, the noise sources, noise model, and noise equivalent circuit of bipolar transistors and MOS circuits are presented. Also, the noise calculation and amplifier’s offsets are introduced. In analog electronics, the main concepts of integrated circuit design are also presented and the basics of IC design will be taught. Therefore, the circuit simulations are done using SPICE (HSPICE). Workshops will be arranged for this purpose.
Syllabus:
- Physics and Operations of an equivalent circuit of the Bipolar Transistor at high frequencies
- Frequency Response of single-stage amplifiers
- Frequency response analysis of multi-stage amplifiers
- Zero-Value Time Constant Method to estimate the bandwidth of amplifiers
- Frequency Compensation and the Pole-Splitting Technique
- Slew-Rate and settling-time
- Physics and operations of MOS transistor
- High-frequency equivalent circuit of MOS transistor
- Single-Stage and Differential MOS amplifiers
- MOS current sources and active load
- Multi-stage CMOS amplifiers
- Compensation Techniques for MOS amplifiers
- Principles of Designing CMOS Operational Amplifiers
- Offset
- Noise
- Paul R. Gray, and Robert G. Meyer, Analysis and Design of Analog Integrated Circuits, 4th Edition, 2001
- Design of Analog CMOS Integrated Circuits, Behzad Razavi, MC Graw Hill, 2000
- M. Sharif Bakhtiar, Analysis and Design of Analog Integrated Circuits (Bipolar Transistors), Niaze Danesh, 2015 (In Farsi)
- S. M. Atardi, Design of CMOS Analog Integrated Circuits, Lachin, 2000 (In Farsi)
Last Update: 2024-05-23