Design of a 3.3-V rail-to-rail 10-MHz CMOS operational amplifier

Design of a 3.3-V rail-to-rail 10-MHz CMOS operational amplifier

A 3.3-Volt rail-to-rail 10 MHz operational amplifier (op-amp) is designed using an industry-grade electronic design automation (EDA) tool, i.e. Electric TM, and simulated using WinSpice. The proposed design makes use of the folded-cascode configuration, which provides the full output swing (rail-to-...

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Main Authors: Bacani, Lourdes Joanne M., Bola, Jon Kristian R.
Format: text
Language:English
Published: Animo Repository 2006
Subjects:
Operational amplifiers
Amplifiers (Electronics)
Online Access:https://animorepository.dlsu.edu.ph/etd_bachelors/9435
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Institution: De La Salle University
Language: English
id oai:animorepository.dlsu.edu.ph:etd_bachelors-10080
record_format eprints
spelling oai:animorepository.dlsu.edu.ph:etd_bachelors-100802021-08-03T06:42:23Z Design of a 3.3-V rail-to-rail 10-MHz CMOS operational amplifier Bacani, Lourdes Joanne M. Bacani, Lourdes Joanne M. Bola, Jon Kristian R. A 3.3-Volt rail-to-rail 10 MHz operational amplifier (op-amp) is designed using an industry-grade electronic design automation (EDA) tool, i.e. Electric TM, and simulated using WinSpice. The proposed design makes use of the folded-cascode configuration, which provides the full output swing (rail-to-rail). The design methodology initiates with the following target specifications: Vdd, Vss = ┴3.3 V GBW = 10 MHz Output swing = ┴3.0 V, ┴0.3 V Gain = 74 dB (5000) ICMR = ┴2.0 V Slew rate ≥ 5 V/os Settling time ≤1 os Load (cap.) = 20 pF Phase Margin ≥ 60₀ Min. length = 0.8 om The mask layout is constructed by adopting the MOSIS CMOS technology, which is available in the EDA tool as mocmossub . The generated layout makes use of two metal layers and one polysilicon. The simulations performed both for schematic and mask layout include dc analysis, ac analysis, and transient analysis. The results compare well with the design specifications, particularly the rail-to-rail output swing and unity-gain bandwidth. This study excludes the actual fabrication of the design. 2006-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/etd_bachelors/9435 Bachelor's Theses English Animo Repository Operational amplifiers Amplifiers (Electronics)
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
language English
topic Operational amplifiers
Amplifiers (Electronics)
spellingShingle Operational amplifiers
Amplifiers (Electronics)
Bacani, Lourdes Joanne M.
Bacani, Lourdes Joanne M.
Bola, Jon Kristian R.
Design of a 3.3-V rail-to-rail 10-MHz CMOS operational amplifier
description A 3.3-Volt rail-to-rail 10 MHz operational amplifier (op-amp) is designed using an industry-grade electronic design automation (EDA) tool, i.e. Electric TM, and simulated using WinSpice. The proposed design makes use of the folded-cascode configuration, which provides the full output swing (rail-to-rail). The design methodology initiates with the following target specifications: Vdd, Vss = ┴3.3 V GBW = 10 MHz Output swing = ┴3.0 V, ┴0.3 V Gain = 74 dB (5000) ICMR = ┴2.0 V Slew rate ≥ 5 V/os Settling time ≤1 os Load (cap.) = 20 pF Phase Margin ≥ 60₀ Min. length = 0.8 om The mask layout is constructed by adopting the MOSIS CMOS technology, which is available in the EDA tool as mocmossub . The generated layout makes use of two metal layers and one polysilicon. The simulations performed both for schematic and mask layout include dc analysis, ac analysis, and transient analysis. The results compare well with the design specifications, particularly the rail-to-rail output swing and unity-gain bandwidth. This study excludes the actual fabrication of the design.
format text
author Bacani, Lourdes Joanne M.
Bacani, Lourdes Joanne M.
Bola, Jon Kristian R.
author_facet Bacani, Lourdes Joanne M.
Bacani, Lourdes Joanne M.
Bola, Jon Kristian R.
author_sort Bacani, Lourdes Joanne M.
title Design of a 3.3-V rail-to-rail 10-MHz CMOS operational amplifier
title_short Design of a 3.3-V rail-to-rail 10-MHz CMOS operational amplifier
title_full Design of a 3.3-V rail-to-rail 10-MHz CMOS operational amplifier
title_fullStr Design of a 3.3-V rail-to-rail 10-MHz CMOS operational amplifier
title_full_unstemmed Design of a 3.3-V rail-to-rail 10-MHz CMOS operational amplifier
title_sort design of a 3.3-v rail-to-rail 10-mhz cmos operational amplifier
publisher Animo Repository
publishDate 2006
url https://animorepository.dlsu.edu.ph/etd_bachelors/9435
_version_ 1772834750209196032

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