Resistor-less low dropout voltage regulator

Resistor-less low dropout voltage regulator

A Low Dropout Voltage Regulator (LDOVR) for memory circuits in the R-WSNs for biomedical devices is presented in the following report, providing a stable output voltage of 0.9V that is almost independent towards temperature, load variations and input supply voltage of 1.2V. The LDOVRs proposed mainl...

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Main Author: Lee, Han Jian
Other Authors: Siek Liter
Format: Final Year Project
Language:English
Published: 2018
Subjects:
DRNTU::Engineering::Electrical and electronic engineering::Integrated circuits
Online Access:http://hdl.handle.net/10356/75547
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-755472023-07-07T17:41:50Z Resistor-less low dropout voltage regulator Lee, Han Jian Siek Liter School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering::Integrated circuits A Low Dropout Voltage Regulator (LDOVR) for memory circuits in the R-WSNs for biomedical devices is presented in the following report, providing a stable output voltage of 0.9V that is almost independent towards temperature, load variations and input supply voltage of 1.2V. The LDOVRs proposed mainly consists of an EA with an embedded Voltage Reference and an output stage that consist of a power transistor. The report proposes two main design, a LDOVR using a self-cascode structure at the output and a Resistor-less LDOVR. The two designs are implemented and simulated in a licensed Cadence Virtuoso environment using the 0.18μm Global Foundries Technology process. The first design can achieve good line regulation and load regulation with a decent load range. However, it was unable to have a stable overall performance at an output voltage of 0.9V. Hence, the challenge was to have a higher output voltage and to design a resistor-less LDOVR (R-LDOVR) at the same time. The second design is the final design of this report, an R-LDOVR. It has an output voltage of 0.9V with an input supply voltage of 1.2V. The design has a TC of 9.87℃ ( -40℃ to 140℃ ), line regulations of 25mV/V and a load regulation of 0.00156 mV/mA. It only consumes a quiescent current of 17.5μA. The design has a good stability performance of 96° phase margin with no load and 89° phase margin with full load. Problems Encountered along the way are mentioned with solutions overcoming them. The report ends of with suggestions to enhance and improve the current design for future efforts. First possible improvement is introducing a more stable resistor-less voltage reference in terms of the effect of the change in voltage supply. This would allow the design to have a better line regulation. Moreover, suggestions were made to enhance the circuit with the output capacitorless method which allows the design to have better transient response without an off-chip capacitor. Bachelor of Engineering 2018-06-01T07:57:07Z 2018-06-01T07:57:07Z 2018 Final Year Project (FYP) http://hdl.handle.net/10356/75547 en Nanyang Technological University 78 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Electrical and electronic engineering::Integrated circuits
spellingShingle DRNTU::Engineering::Electrical and electronic engineering::Integrated circuits
Lee, Han Jian
Resistor-less low dropout voltage regulator
description A Low Dropout Voltage Regulator (LDOVR) for memory circuits in the R-WSNs for biomedical devices is presented in the following report, providing a stable output voltage of 0.9V that is almost independent towards temperature, load variations and input supply voltage of 1.2V. The LDOVRs proposed mainly consists of an EA with an embedded Voltage Reference and an output stage that consist of a power transistor. The report proposes two main design, a LDOVR using a self-cascode structure at the output and a Resistor-less LDOVR. The two designs are implemented and simulated in a licensed Cadence Virtuoso environment using the 0.18μm Global Foundries Technology process. The first design can achieve good line regulation and load regulation with a decent load range. However, it was unable to have a stable overall performance at an output voltage of 0.9V. Hence, the challenge was to have a higher output voltage and to design a resistor-less LDOVR (R-LDOVR) at the same time. The second design is the final design of this report, an R-LDOVR. It has an output voltage of 0.9V with an input supply voltage of 1.2V. The design has a TC of 9.87℃ ( -40℃ to 140℃ ), line regulations of 25mV/V and a load regulation of 0.00156 mV/mA. It only consumes a quiescent current of 17.5μA. The design has a good stability performance of 96° phase margin with no load and 89° phase margin with full load. Problems Encountered along the way are mentioned with solutions overcoming them. The report ends of with suggestions to enhance and improve the current design for future efforts. First possible improvement is introducing a more stable resistor-less voltage reference in terms of the effect of the change in voltage supply. This would allow the design to have a better line regulation. Moreover, suggestions were made to enhance the circuit with the output capacitorless method which allows the design to have better transient response without an off-chip capacitor.
author2 Siek Liter
author_facet Siek Liter
Lee, Han Jian
format Final Year Project
author Lee, Han Jian
author_sort Lee, Han Jian
title Resistor-less low dropout voltage regulator
title_short Resistor-less low dropout voltage regulator
title_full Resistor-less low dropout voltage regulator
title_fullStr Resistor-less low dropout voltage regulator
title_full_unstemmed Resistor-less low dropout voltage regulator
title_sort resistor-less low dropout voltage regulator
publishDate 2018
url http://hdl.handle.net/10356/75547
_version_ 1772827896854872064

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