Quiescent current reduction of self-compensated low-dropout voltage regulator
Low-Dropout Voltage Regulator (LDO) is a linear regulator which is mainly used to regulate noiseless supply voltage for analog and Radio Frequency (RF) circuits. Today, the shrinking of transistor size due to the advancement of process technology and the increasing interests in the Internet-of-Th...
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my-upm-ir.898832021-12-06T04:52:16Z Quiescent current reduction of self-compensated low-dropout voltage regulator 2019-10 Lee, Chu Liang Low-Dropout Voltage Regulator (LDO) is a linear regulator which is mainly used to regulate noiseless supply voltage for analog and Radio Frequency (RF) circuits. Today, the shrinking of transistor size due to the advancement of process technology and the increasing interests in the Internet-of-Thing (IoT) have increased the market demand for portable, wearable and implantable electronic devices. This has driven the need for low power Silicon-on-Chip (SoC) design which includes the integration of LDO into SoC. Analog and RF circuits have contributed to significantly high percentage of current consumption in low power SoC designs, mainly during stand-by mode. The reduction of quiescent current in analog LDO circuits become very important in order to reduce power consumption and to improve the efficiency of LDO especially during low output load current. Quiescent current is the current needed to keep LDO’s internal circuit in vigilant. However, with the absent of large off-chip compensation-capacitor for LDO in SoC, an excessive current is required to maintain ac loop stability of LDO system, especially during low output load current condition. A self-adjustable current reduction circuit technique has been proposed in this thesis to reduce this unnecessary current when output load current increases from zero value. On top of that, a self-compensation circuit technique is also been proposed to cater the worst case loop stability issue when load current reducing to zero. In this technique, the UGF has been shifted to a lower frequency away from the second pole frequency according to the amount of output load current. It is done using a current feedback circuit, where the total gain is lowered without affecting the location of dominant pole. The self compensation technique further reduces the total quiescent current, and avoid the excessive current to be used to keep the second pole at higher frequency. The proposed LDO has been designed and fabricated using 0.13μm CMOS process technology. The results has shown that the proposed LDO exhibits good stability with phase margin more than 60° for all output load condition. The LDO’s total quiescent current is only 7.4μA at zero output load current, and 17.7μA at maximum output load current of 100mA. The total quiescent current measurement result on LDO with BGR circuit is 33.1μA, where the BGR consumed 20μA. This LDO is functional at 1.20V supply voltage with 200mV dropout voltage. Low voltage integrated circuits - Design and construction - Case studies Electric current regulators - Design and construction Iddq testing 2019-10 Thesis http://psasir.upm.edu.my/id/eprint/89883/ http://psasir.upm.edu.my/id/eprint/89883/1/FK%202020%2015%20ir.pdf text en public doctoral Universiti Putra Malaysia Low voltage integrated circuits - Design and construction - Case studies Electric current regulators - Design and construction Iddq testing Mohd Sidek, Roslina |
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Universiti Putra Malaysia |
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| language |
English |
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Mohd Sidek, Roslina |
| topic |
Low voltage integrated circuits - Design and construction - Case studies Electric current regulators - Design and construction Iddq testing |
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Low voltage integrated circuits - Design and construction - Case studies Electric current regulators - Design and construction Iddq testing Lee, Chu Liang Quiescent current reduction of self-compensated low-dropout voltage regulator |
| description |
Low-Dropout Voltage Regulator (LDO) is a linear regulator which is mainly used to
regulate noiseless supply voltage for analog and Radio Frequency (RF) circuits. Today,
the shrinking of transistor size due to the advancement of process technology and the
increasing interests in the Internet-of-Thing (IoT) have increased the market demand for
portable, wearable and implantable electronic devices. This has driven the need for low
power Silicon-on-Chip (SoC) design which includes the integration of LDO into SoC.
Analog and RF circuits have contributed to significantly high percentage of current
consumption in low power SoC designs, mainly during stand-by mode. The reduction of
quiescent current in analog LDO circuits become very important in order to reduce power
consumption and to improve the efficiency of LDO especially during low output load
current. Quiescent current is the current needed to keep LDO’s internal circuit in vigilant.
However, with the absent of large off-chip compensation-capacitor for LDO in SoC, an
excessive current is required to maintain ac loop stability of LDO system, especially
during low output load current condition.
A self-adjustable current reduction circuit technique has been proposed in this thesis to
reduce this unnecessary current when output load current increases from zero value. On
top of that, a self-compensation circuit technique is also been proposed to cater the worst
case loop stability issue when load current reducing to zero. In this technique, the UGF
has been shifted to a lower frequency away from the second pole frequency according to
the amount of output load current. It is done using a current feedback circuit, where the
total gain is lowered without affecting the location of dominant pole. The self compensation
technique further reduces the total quiescent current, and avoid the
excessive current to be used to keep the second pole at higher frequency. The proposed LDO has been designed and fabricated using 0.13μm CMOS process
technology. The results has shown that the proposed LDO exhibits good stability with
phase margin more than 60° for all output load condition. The LDO’s total quiescent
current is only 7.4μA at zero output load current, and 17.7μA at maximum output load
current of 100mA. The total quiescent current measurement result on LDO with BGR
circuit is 33.1μA, where the BGR consumed 20μA. This LDO is functional at 1.20V
supply voltage with 200mV dropout voltage. |
| format |
Thesis |
| qualification_level |
Doctorate |
| author |
Lee, Chu Liang |
| author_facet |
Lee, Chu Liang |
| author_sort |
Lee, Chu Liang |
| title |
Quiescent current reduction of self-compensated low-dropout voltage regulator |
| title_short |
Quiescent current reduction of self-compensated low-dropout voltage regulator |
| title_full |
Quiescent current reduction of self-compensated low-dropout voltage regulator |
| title_fullStr |
Quiescent current reduction of self-compensated low-dropout voltage regulator |
| title_full_unstemmed |
Quiescent current reduction of self-compensated low-dropout voltage regulator |
| title_sort |
quiescent current reduction of self-compensated low-dropout voltage regulator |
| granting_institution |
Universiti Putra Malaysia |
| publishDate |
2019 |
| url |
http://psasir.upm.edu.my/id/eprint/89883/1/FK%202020%2015%20ir.pdf |
| _version_ |
1747813588841529344 |