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[[File:NMOS_LDO.png|400px|thumb|right|An NMOS LDO (''Texas Instruments, LDO Basics'')]]
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==Short Description==
 
==Short Description==
 
Power management is a fundamental block in integrated circuits, especially for battery-operated systems such as the Magnetic Resonance Imaging transceiver which requires these Low-Dropout Regulators (LDO). LDOs are DC linear voltage regulators built to regulate an output voltage powered from a higher-voltage input. To supply the different building blocks of the MRI transceiver, two LDOs have to be designed. On one hand, an LDO which will be coupled with a DC-DC converter to supply most of the building blocks. On the other hand, an LDO dedicated to the reference oscillator responsible for delivering the main clock of the system. The latter will be more challenging with adjustable input and output voltages.
 
Power management is a fundamental block in integrated circuits, especially for battery-operated systems such as the Magnetic Resonance Imaging transceiver which requires these Low-Dropout Regulators (LDO). LDOs are DC linear voltage regulators built to regulate an output voltage powered from a higher-voltage input. To supply the different building blocks of the MRI transceiver, two LDOs have to be designed. On one hand, an LDO which will be coupled with a DC-DC converter to supply most of the building blocks. On the other hand, an LDO dedicated to the reference oscillator responsible for delivering the main clock of the system. The latter will be more challenging with adjustable input and output voltages.
  
At the Integrated Systems Laboratory, we have designed similar circuits in an old technology. This project will have to be designed in 65nm CMOS.
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At the Integrated Systems Laboratory, we have designed similar circuits in an old technology. This circuit will have to be designed in 65nm CMOS.
  
===Status: Available ===
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===Status: Completed ===
: Type: Bachelor's Thesis or Semester Project
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: Noah Sassan
: Contact: [[:User:Mocquard | Guillaume Mocquard]]
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: Contact: [[:User:Mocquard | Guillaume Mocquard]], [[:User:Burger | Thomas Burger]]
  
 
===Prerequisites===
 
===Prerequisites===
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==Links==  
 
==Links==  
 
[[Category:Analog]]
 
[[Category:Analog]]
[[Category:Available]]
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[[Category:Completed]]
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[[Category:2021]]
 
[[Category:Bachelor Thesis]]
 
[[Category:Bachelor Thesis]]
 
[[Category:Semester Thesis]]
 
[[Category:Semester Thesis]]
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[[Category:Burger]]
 
[[Category:Mocquard]]
 
[[Category:Mocquard]]
 
[[Category:Analog IC Design]]
 
[[Category:Analog IC Design]]
 
[[#top|↑ top]]
 
[[#top|↑ top]]

Latest revision as of 10:38, 20 August 2021

An NMOS LDO (Texas Instruments, LDO Basics)

Short Description

Power management is a fundamental block in integrated circuits, especially for battery-operated systems such as the Magnetic Resonance Imaging transceiver which requires these Low-Dropout Regulators (LDO). LDOs are DC linear voltage regulators built to regulate an output voltage powered from a higher-voltage input. To supply the different building blocks of the MRI transceiver, two LDOs have to be designed. On one hand, an LDO which will be coupled with a DC-DC converter to supply most of the building blocks. On the other hand, an LDO dedicated to the reference oscillator responsible for delivering the main clock of the system. The latter will be more challenging with adjustable input and output voltages.

At the Integrated Systems Laboratory, we have designed similar circuits in an old technology. This circuit will have to be designed in 65nm CMOS.

Status: Completed

Noah Sassan
Contact: Guillaume Mocquard, Thomas Burger

Prerequisites

Analog Integrated Circuits (AIC)

Character

30% Theory
70% Circuit Design

Professor

Qiuting Huang

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Detailed Task Description

Goals

Practical Details

Results

Links

↑ top