A quiescent 407-nA output-capacitorless low-dropout regulator with 0-100-mA load current range
An ultralow quiescent current output-capacitorless low-dropout (LDO) regulator dedicated to Internet-of-Things applications is presented. This is based on an improved adaptive-stage adaptively biased architecture together with the novel frequency compensation to achieve the good stability and fast t...
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sg-ntu-dr.10356-1500592021-06-04T03:42:34Z A quiescent 407-nA output-capacitorless low-dropout regulator with 0-100-mA load current range Jiang, Yushan Wang, Dong Chan, Pak Kwong School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Adaptive Bias Frequency Compensation An ultralow quiescent current output-capacitorless low-dropout (LDO) regulator dedicated to Internet-of-Things applications is presented. This is based on an improved adaptive-stage adaptively biased architecture together with the novel frequency compensation to achieve the good stability and fast transient response under ultralow bias current. Validated by the CMOS 0.18-\mu \text{m} technology, the chip area is 0.055 mm². The proposed LDO regulator consumes only 407-nA quiescent current at no-load current while providing a 1-V output with a maximum load current of 100 mA from a 1.2-V power supply. The adaptive frequency compensation is presented, including a new transistor degeneration frequency compensation (TDFC) to sustain the stability at ultralow quiescent bias. Besides, it also includes Q-reduction and Miller-RC compensation schemes to ensure the stability for full load current range. In addition, a substantial improved transient response is obtained by the proposed distributed overshoot reduction circuit together with the TDFC scheme and the adaptively feed-forward biasing topology. The measured results have shown that the undershoot/overshoot voltage is 117 mV/35.33 mV and the output can settle in 1.56~\mu \text{s} with 1% accuracy. Compared to fixed-biased and adaptively biased architectures, it shows the lowest value in figure of merit (FOM) at the quiescent state. Compared to adaptively biased architectures, it shows the improved FOM at the maximum quiescent state. Economic Development Board (EDB) This work was supported in part by the Silicon Labs and in part by EDB Singapore through the JIP Scholarship. 2021-06-04T03:42:34Z 2021-06-04T03:42:34Z 2019 Journal Article Jiang, Y., Wang, D. & Chan, P. K. (2019). A quiescent 407-nA output-capacitorless low-dropout regulator with 0-100-mA load current range. IEEE Transactions On Very Large Scale Integration (VLSI) Systems, 27(5), 1093-1104. https://dx.doi.org/10.1109/TVLSI.2018.2890698 1063-8210 0000-0003-0846-9172 0000-0002-8854-9203 0000-0002-9205-0819 https://hdl.handle.net/10356/150059 10.1109/TVLSI.2018.2890698 2-s2.0-85065059449 5 27 1093 1104 en IEEE Transactions on Very Large Scale Integration (VLSI) Systems © 2019 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Adaptive Bias Frequency Compensation Jiang, Yushan Wang, Dong Chan, Pak Kwong A quiescent 407-nA output-capacitorless low-dropout regulator with 0-100-mA load current range |
| description |
An ultralow quiescent current output-capacitorless low-dropout (LDO) regulator dedicated to Internet-of-Things applications is presented. This is based on an improved adaptive-stage adaptively biased architecture together with the novel frequency compensation to achieve the good stability and fast transient response under ultralow bias current. Validated by the CMOS 0.18-\mu \text{m} technology, the chip area is 0.055 mm². The proposed LDO regulator consumes only 407-nA quiescent current at no-load current while providing a 1-V output with a maximum load current of 100 mA from a 1.2-V power supply. The adaptive frequency compensation is presented, including a new transistor degeneration frequency compensation (TDFC) to sustain the stability at ultralow quiescent bias. Besides, it also includes Q-reduction and Miller-RC compensation schemes to ensure the stability for full load current range. In addition, a substantial improved transient response is obtained by the proposed distributed overshoot reduction circuit together with the TDFC scheme and the adaptively feed-forward biasing topology. The measured results have shown that the undershoot/overshoot voltage is 117 mV/35.33 mV and the output can settle in 1.56~\mu \text{s} with 1% accuracy. Compared to fixed-biased and adaptively biased architectures, it shows the lowest value in figure of merit (FOM) at the quiescent state. Compared to adaptively biased architectures, it shows the improved FOM at the maximum quiescent state. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Jiang, Yushan Wang, Dong Chan, Pak Kwong |
| format |
Article |
| author |
Jiang, Yushan Wang, Dong Chan, Pak Kwong |
| author_sort |
Jiang, Yushan |
| title |
A quiescent 407-nA output-capacitorless low-dropout regulator with 0-100-mA load current range |
| title_short |
A quiescent 407-nA output-capacitorless low-dropout regulator with 0-100-mA load current range |
| title_full |
A quiescent 407-nA output-capacitorless low-dropout regulator with 0-100-mA load current range |
| title_fullStr |
A quiescent 407-nA output-capacitorless low-dropout regulator with 0-100-mA load current range |
| title_full_unstemmed |
A quiescent 407-nA output-capacitorless low-dropout regulator with 0-100-mA load current range |
| title_sort |
quiescent 407-na output-capacitorless low-dropout regulator with 0-100-ma load current range |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150059 |
| _version_ |
1702431283657834496 |