Difference between revisions of "EE 220"
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* [[220-A1.1]]: IC fabrication | * [[220-A1.1]]: IC fabrication | ||
− | * [[220-A1.2]]: | + | * [[220-A1.2]]: A Wideband Voltage Divider Circuit |
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| style="text-align:center;" | 2 | | style="text-align:center;" | 2 | ||
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* Spyder IDE [https://www.spyder-ide.org/ website] | * Spyder IDE [https://www.spyder-ide.org/ website] | ||
+ | * [[Using Python with ngspice]] | ||
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− | * [[220-A2.1]]: | + | * [[220-A2.1]]: Integrated Resistors and Capacitors |
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| style="text-align:center;" | 3 | | style="text-align:center;" | 3 | ||
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[[MOS Transistors]] | [[MOS Transistors]] | ||
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* Transistor Models | * Transistor Models | ||
+ | * Short-Channel Effects | ||
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* Identify, model, and analyze the effects of CMOS process parameters on the characteristics of MOS transistors. | * Identify, model, and analyze the effects of CMOS process parameters on the characteristics of MOS transistors. | ||
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* Arizona State University Predictive Technology Models (PTM) [http://ptm.asu.edu/ website] | * Arizona State University Predictive Technology Models (PTM) [http://ptm.asu.edu/ website] | ||
+ | * SkyWater [[SKY130 Models]] (130nm CMOS) | ||
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* [[220-A3.1]]: MOS characteristic curves simulation | * [[220-A3.1]]: MOS characteristic curves simulation | ||
− | * [[220-A3.2]]: MOS | + | * [[220-A3.2]]: Extracting MOS small-signal parameters |
− | * [[220-A3.3]]: | + | * [[220-A3.3]]: The MOS transition frequency |
|- | |- | ||
| style="text-align:center;" | 4 | | style="text-align:center;" | 4 | ||
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− | [[Model-Based Design]] | + | [[Model-Based Analog Circuit Design]] |
+ | * Small-Signal Model | ||
+ | * <math>\tfrac{g_m}{I_D}</math> and <math>V^*</math> | ||
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* Design simple single-transistor amplifiers using SPICE models as an alternative to closed-form models. | * Design simple single-transistor amplifiers using SPICE models as an alternative to closed-form models. | ||
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− | * [[220-A4.1]]: Design a | + | * [[220-A4.1]]: MOS Intrinsic Gain |
+ | * [[220-A4.2]]: Simulating <math>\tfrac{g_m}{I_D}</math> | ||
+ | * [[220-A4.3]]: Design of a Simple Common-Source Amplifier | ||
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| style="text-align:center;" | 5 | | style="text-align:center;" | 5 | ||
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[[Electronic Noise]] | [[Electronic Noise]] | ||
− | * | + | * [[Resistor Noise]] |
− | * | + | * [[Diode and Transistor Noise]] |
− | * | + | * [[EE 220 Noise Analysis | Noise Analysis]] |
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* Identify the fundamental types of electronic noise and differentiate one noise type from another. | * Identify the fundamental types of electronic noise and differentiate one noise type from another. |
Latest revision as of 11:20, 11 October 2021
- Analog Integrated Circuits
- Semester Offered: 1st semester
- Course Credit: Lecture: 4 units (3 units lecture, 1 unit lab)
Catalog Description
Integrated circuit devices and modeling. Noise analysis and modeling. Review of basic operational amplifier design and compensation. Advanced current mirrors and operational amplifiers. Operational transconductance amplifiers. Common-mode feedback circuits. Comparators. Sample and holds. Voltage references and translinear circuits. Discrete-time signals. Switched-capacitor circuits. Co-req: CoE 143 or equiv. 6h (3 lec, 3 lab) 4 u.
Syllabus
Module | Topics | Outcomes | Resources | Activities |
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1 |
CMOS Technology and Fabrication
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Model-Based Analog Circuit Design
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Operational Transconductance Amplifiers (OTAs)
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References
- Gray, Hurst, Lewis, Meyer, Analysis & Design of Analog Integrated Circuits, Wiley 2001.
- Johns, Martin, Analog Integrated Circuit Design, Wiley 1997.
- Design of Analog CMOS Integrated Circuits, Behzad Razavi, McGraw-Hill, 2000.
- The Design of CMOS Radio-Frequency Integrated Circuits, Thomas H. Lee, 2nd Ed., Cambridge University Press, 2003.
- The Designers Guide to SPICE & SPECTRE, K. S. Kundert, Kluwer Academic Press, 1995.
- Operation and Modeling of the MOS Transistor, Y. Tsividis, McGraw-Hill, 2nd Edition, 1999.