Difference between revisions of "CoE 197U S2 AY 2022-2023"
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* Slides: CMOS Gates [[https://drive.google.com/file/d/10McCC1megDnllbIMj7rdtBlyZB84QVBh/view?usp=sharing PDF]] | * Slides: CMOS Gates [[https://drive.google.com/file/d/10McCC1megDnllbIMj7rdtBlyZB84QVBh/view?usp=sharing PDF]] | ||
* Slides: Logical Effort [[https://drive.google.com/file/d/10dGqE_NolixkYaL7aUWMlwPaIILprEFg/view?usp=sharing PDF]] | * Slides: Logical Effort [[https://drive.google.com/file/d/10dGqE_NolixkYaL7aUWMlwPaIILprEFg/view?usp=sharing PDF]] | ||
+ | * Additional Slides: LE Example [[https://drive.google.com/file/d/1IvgU-3yIFlPBbj0PAdfdnyrPYkas3qnf/view?usp=sharing PDF]] | ||
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<!-- * [[CoE197U-A3.1]]: Logical Effort --> | <!-- * [[CoE197U-A3.1]]: Logical Effort --> | ||
+ | * [https://drive.google.com/file/d/1IgdNWWsXWqQegJP914KjZ7m4zVZ5LEQo/view?usp=sharing HW] Module 3 HW (final extension May 5) | ||
* [https://drive.google.com/file/d/1bHTAunfnUid3HUrl9oINJhUVqcxf2HUo/view?usp=sharing Lab 03]: Static CMOS Gates | * [https://drive.google.com/file/d/1bHTAunfnUid3HUrl9oINJhUVqcxf2HUo/view?usp=sharing Lab 03]: Static CMOS Gates | ||
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''Mar 20-25'' | ''Mar 20-25'' | ||
* [[ CoE 197U Power and Energy | Power and Energy ]] | * [[ CoE 197U Power and Energy | Power and Energy ]] | ||
− | * [[ CoE 197U Interconnects | Interconnects ]] | + | * Optional: [[ CoE 197U Interconnects | Interconnects ]] |
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* Identify sources of power and energy consumption in digital circuits | * Identify sources of power and energy consumption in digital circuits | ||
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* Model interconnects as parasitic resistances and capacitances and estimate corresponding delay | * Model interconnects as parasitic resistances and capacitances and estimate corresponding delay | ||
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− | * Slides: Power and Energy [PDF] | + | * Slides: Power and Energy [[https://drive.google.com/file/d/1IiXkv95fMswIMGUNvRdeh4gd0mv32zyT/view?usp=sharing PDF]] |
* Slides: Interconnects [PDF] | * Slides: Interconnects [PDF] | ||
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* Design and characterize basic memory elements | * Design and characterize basic memory elements | ||
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− | * Slides: Memory [PDF] | + | * Slides: Memory [[https://drive.google.com/file/d/1Im5QU8FoXTTAIr7ah499VN_LVsfKY0uq/view?usp=sharing PDF]] |
− | * Slides: Timing [PDF] | + | * Slides: Timing [[https://drive.google.com/file/d/1IlpWLKPaWKP5bqpQP_tKlZuypvrjcdcI/view?usp=sharing PDF]] |
+ | * Slides: Optional materials [[https://drive.google.com/file/d/1IkQsL_U9BSwbP1cwL5ntbUB3Tawk_qYM/view?usp=sharing PDF]] | ||
+ | * Video: Module discussion [[https://drive.google.com/file/d/1IwDyzqReLLr5BP8YmKWSXs1daNkBoUMw/view?usp=sharing Link]] | ||
+ | * 2019 Exam: [[https://drive.google.com/file/d/11nFrLUBhYL-glsAPQCNCBJ1gmKH9Nne6/view?usp=sharing PDF]] | ||
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<!-- * [[CoE197U-A5.1]]: Timing --> | <!-- * [[CoE197U-A5.1]]: Timing --> | ||
− | * Lab | + | * [https://drive.google.com/file/d/1o2jk_-bh_OMQUXVtHpMyHa2e127UavZz/view?usp=sharing Lab (Optional)]: SRAM |
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| style="text-align:center;" colspan="5" | ''Part II: Analog Integrated Circuits'' | | style="text-align:center;" colspan="5" | ''Part II: Analog Integrated Circuits'' | ||
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* Identify the appropriate application of a MOS amplifier topology based on its two-port parameters. | * Identify the appropriate application of a MOS amplifier topology based on its two-port parameters. | ||
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− | * Slides: DC and AC Analysis [https://drive.google.com/file/d/1J5bNkvjyJ5dF0HWpcLABiQq9WOlnyqje/view?usp=sharing PDF] | + | * Slides: DC and AC Analysis [[https://drive.google.com/file/d/1J5bNkvjyJ5dF0HWpcLABiQq9WOlnyqje/view?usp=sharing PDF]] |
* Videos: [https://www.youtube.com/watch?v=4tEYeFiYwWI&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=1 Part 1] [https://www.youtube.com/watch?v=lD7ejAl4Ue4&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=2 Part 2] | * Videos: [https://www.youtube.com/watch?v=4tEYeFiYwWI&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=1 Part 1] [https://www.youtube.com/watch?v=lD7ejAl4Ue4&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=2 Part 2] | ||
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− | * Lab | + | * [https://drive.google.com/file/d/1qJUb3iom66Uo02n5bMg2TonGcRE-OKIU/view?usp=sharing Lab 05]: Introduction to Analog IC Design (MOS Characterization) |
− | |||
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| style="text-align:center;" | 7 | | style="text-align:center;" | 7 | ||
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* Estimate the dominant pole using ZVTCA. | * Estimate the dominant pole using ZVTCA. | ||
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− | * Slides: Frequency Response [https://drive.google.com/file/d/1IA9OF95XS4FV852IuIpbY5iy1KquA4VI/view?usp=sharing PDF] | + | * Slides: Frequency Response [[https://drive.google.com/file/d/1IA9OF95XS4FV852IuIpbY5iy1KquA4VI/view?usp=sharing PDF]] |
* Videos: [https://www.youtube.com/watch?v=1AzlCV_AXgg&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=3 Part 1] [https://www.youtube.com/watch?v=I3I6CBye0rU&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=4 Part 2] [https://www.youtube.com/watch?v=55w6EXRSR1M&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=5 Part 3] | * Videos: [https://www.youtube.com/watch?v=1AzlCV_AXgg&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=3 Part 1] [https://www.youtube.com/watch?v=I3I6CBye0rU&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=4 Part 2] [https://www.youtube.com/watch?v=55w6EXRSR1M&list=PL4if6jkKNTz9RgsB4Gq_g374b4oLYOAeH&index=5 Part 3] | ||
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− | * Lab | + | * [https://drive.google.com/file/d/1qxZYVYwmhjmUJH1Y5JeKc9VQTlU6Y3Oh/view?usp=sharing Lab 06]: Common-Source Amplifier with Resistive Load |
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| style="text-align:center;" | 8 | | style="text-align:center;" | 8 | ||
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* Analyze High-swing current sources | * Analyze High-swing current sources | ||
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− | * Slides: Current Sources [https://drive.google.com/file/d/19jU1NupCk66ta6Q3tJyWFYDUagqaZCQs/view?usp=sharing PDF] | + | * Slides: Current Sources [[https://drive.google.com/file/d/19jU1NupCk66ta6Q3tJyWFYDUagqaZCQs/view?usp=sharing PDF]] [[https://drive.google.com/file/d/1LQBAYGi4V2OVDtcDEwU78ianL_LD4PTk/view?usp=sharing Annotated PDF]] |
− | * Slides: High-Swing Current Sources [https://drive.google.com/file/d/15dsEE2jcVoUNasZmvCOlewN77UxfOieB/view?usp=sharing PDF] | + | * Slides: High-Swing Current Sources [[https://drive.google.com/file/d/15dsEE2jcVoUNasZmvCOlewN77UxfOieB/view?usp=sharing PDF]] [[https://drive.google.com/file/d/1jtwEvsdZ9uWTYQ969RcQXfwyGtOSCOSL/view?usp=sharing Annotated PDF]] |
+ | * Videos: [https://drive.google.com/file/d/1vxGdeB_VRUoyA5G4XotYUWxmBPFhXjyN/view?usp=sharing Part 1] [https://drive.google.com/file/d/11cjEGTWBCXKZ92Op4luxM3MMGThBXPbH/view?usp=sharing Part 2] | ||
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− | * Lab | + | * [https://drive.google.com/file/d/1rsYqGJ-TgIk8yMkPa9z_3Q-l3CnkicFH/view?usp=sharing Lab 07]: Current Sources |
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| style="text-align:center;" | 9 | | style="text-align:center;" | 9 | ||
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* Analyze Miller Operational Amplifiers | * Analyze Miller Operational Amplifiers | ||
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− | * Slides: MOS Differential Pairs [https://drive.google.com/file/d/10p4T9_5qMXiXPeVU0B0yHmzmtTabiQ43/view?usp=sharing PDF] | + | * Slides: MOS Differential Pairs [[https://drive.google.com/file/d/10p4T9_5qMXiXPeVU0B0yHmzmtTabiQ43/view?usp=sharing PDF]] |
− | * Slides: Miller Op-Amp [https://drive.google.com/file/d/1ARDhJZ5SXZ9aMOgDCBVHqwkQAiG0FLsn/view?usp=sharing PDF] | + | * Slides: Miller Op-Amp [[https://drive.google.com/file/d/1ARDhJZ5SXZ9aMOgDCBVHqwkQAiG0FLsn/view?usp=sharing PDF]] |
+ | * Videos: [https://drive.google.com/file/d/1XRNRW5x2GmhDsvfyZ-iOt5JvisZaJ-bl/view?usp=sharing Part 1] [https://drive.google.com/file/d/1zOlnA7GNCBQdeKf0cumAQtAe31QDAqoE/view?usp=sharing Part 2] | ||
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− | * Lab | + | * [https://drive.google.com/file/d/1s5JjDhKb_ABXVH0q5yfaU6gc7DEHRKwt/view?usp=sharing Lab 08]: Differential Amplifier |
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| style="text-align:center;" | 10 | | style="text-align:center;" | 10 | ||
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* Explain how to design a folded cascode OTA. | * Explain how to design a folded cascode OTA. | ||
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− | * Slides: Folded Cascode [https://drive.google.com/file/d/1Tg0ZyYzh-rQPGdOqmonEXNXNYPkhJ-aW/view?usp=sharing PDF] | + | * Slides: Folded Cascode [[https://drive.google.com/file/d/1Tg0ZyYzh-rQPGdOqmonEXNXNYPkhJ-aW/view?usp=sharing PDF]] |
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− | * Lab | + | * [https://drive.google.com/file/d/1p-kByLuiUuwYC7jlVHQ0AdCqLzhQIvzx/view?usp=sharing Lab 09]: Design Problem |
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|} | |} |
Latest revision as of 11:02, 16 June 2023
- Introduction to Analog and Digital Integrated Circuit Design
- Semester Offered: 2nd semester
- Course Credit: Lecture: 3 units (2 units lecture, 1 unit lab)
Catalog Description
IC Fabrication. CMOS gates. Logical Effort. Interconnect. Memory Elements. MOS Amplifiers. Current Sources. Differential Amplifiers. Operational Transconductance Amplifiers.
Pre-req: EEE 41 or EEE 131. 5h (2 lec, 3 lab) 3 u.
Syllabus
Module | Topics | Outcomes | Resources | Activities |
---|---|---|---|---|
Part I: Digital Integrated Circuits | ||||
0 |
Feb 13-18
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1 |
Feb 20-25 |
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2 |
Mar 6-11 |
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3 |
Mar 13-18 |
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4 |
Mar 20-25
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5 |
Mar 20-25 |
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Part II: Analog Integrated Circuits | ||||
6 |
Apr 17-22
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7 |
Apr 24-29
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8 |
May 8-13
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9 |
May 15-20 |
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10 |
May 22-27
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References
- Rabaey, Chandrakasan, Nikolic, Digital Integrated Circuits, 2ed., Pearson 2002.
- 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.
- R. Jacob Baker, Circuit Design, Layout,and Simulation, 4ed., IEEE Press 2019.