Fully-Integrated Converter for Low-Cost and Low-Size Power Supply in Internet-of-Things Applications

Gutiérrez, Fernando

doi:10.3390/electronics6020038

Cited by 11 publications

(7 citation statements)

References 106 publications

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“…There has been a significant number of reports on large signal characterization of discrete passive devices. In the particular case of characterization of inductors, there is an increasing interest because of the thin film components working in Power Supply on Chip or Power Supply in Package [1][2][3][4][5][6][7][8]. These kinds of applications present two main challenges regarding the measurement: (1) the high frequency (above 10 MHz) and (2) the high Q of the component (very small resistance compared to its reactance).…”

Section: Introductionmentioning

confidence: 99%

Comparison of Different Large Signal Measurement Setups for High Frequency Inductors

et al. 2021

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The growing interest of miniaturized power converters has pushed the development of high frequency inductors integrated in Power Supply on Chip or Power Supply in Package. The proper characterization of inductor impedance is a challenge due to the dependence of the impedance on the current, the high quality factor (Q) and the high frequency range where these devices operate. In this paper, we present a comparison of different measuring methods to characterize high frequency and high Q inductors. The comparison is based on a systematic analysis of the measurement process, quantifying the influence of the parameters that affect the measurement result. Four common measurement setups are analyzed and compared. To validate the calculations, the resistance of a high frequency, high-Q inductor is characterized using every presented setup. The good match between calculations, simulation and measurement validates the analysis and the conclusions extracted.

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Section: Introductionmentioning

confidence: 99%

Comparison of Different Large Signal Measurement Setups for High Frequency Inductors

et al. 2021

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“…Recently, developing a fully integrated voltage regulator (FIVR) is one of the design challenges for digital systems [1][2][3][4]. Instead of the conventional external voltage regulation, FIVR can supply the power to the digital system directly without PCB and package interconnections.…”

Section: Introductionmentioning

confidence: 99%

Design of Soft-Switching Hybrid DC-DC Converter with 2-Phase Switched Capacitor and 0.8nH Inductor for Standard CMOS Process

Choi

Jeong

2020

Electronics

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A soft-switching hybrid DC-DC converter with a 2-phase switched capacitor is proposed for the implementation of a fully-integrated voltage regulator in a 65 nm standard CMOS process. The soft-switching operation is implemented to minimize power loss due to the parasitic capacitance of the flying capacitor. The 2-phase switched capacitor topology keeps the same resonance value for every soft-switching operation, resulting in minimizing the voltage imbalance of the flying capacitor. The proposed adaptive timing generator digitally calibrates the turn-on delay of switches to achieve a complete soft-switching operation. The simulation results show that the proposed soft-switching hybrid DC-DC converter with a 2-phase 2:1 switched capacitor improves the efficiency by 5.1% and achieves 79.5% peak efficiency at a maximum load current of 250 mA.

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“…Nowadays the devices with wireless supply are increasingly used in industry, commerce, logistics, construction as well as in everyday life. So Internet of Things technologies allow forming 'intellectual' nets of physical objects, interacting between each other through RF radiation, thanks to which the creation of diverse automated systems like smart home is possible [1][2][3][4][5][6]. By means of Wireless Sensor Networks [1,2,4,[6][7][8][9] one can in real-time mode monitor the state of various complex systems and objects, e.g.…”

Section: Introductionmentioning

confidence: 99%

Research of Nanoscale MOSFET Parameters Impact on the Performance of Energy Converters for Internet of Things

2019

International Journal of Innovative Research in Electronics and

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Wireless microdevices are widely adopted in Radio-frequency Identification (RFID), Wireless Sensor Networks (WSN), Internet of Things (IoT). Among them, passive devices have a special place, since they haven't constant internal power supply. Passive devices are cheaper and more compact than their active analogs, their lifetime is higher, and they can be applied in some applications, which are inappropriate for active tags, e.g. in medical implants. However passive devices have to receive the energy for operation from the outside through RF radiation -from reader or harvesting energy from the environment. For conversion this energy to power supply voltage of passive microdevice IC, voltage rectifiers are used. The purpose of this work is research of impact on output voltage by parameters of nanoscale diode-connected MOSFETs, which perform functions of rectifiers in the energy converters. The comparison of different voltage rectifier configurations was made based on Tanner EDA simulation results. The current-voltage characteristics of diode-connected MOSFETs were obtained for different CMOS technologies. The impact of transistor threshold voltage and its sizes on output voltage of single-stage multiplier for different technologies, input voltage amplitudes and load resistances was investigated. The results of the research can be useful in the design of wireless passive microdevices.

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Fully-Integrated Converter for Low-Cost and Low-Size Power Supply in Internet-of-Things Applications

Cited by 11 publications

References 106 publications

Comparison of Different Large Signal Measurement Setups for High Frequency Inductors

Comparison of Different Large Signal Measurement Setups for High Frequency Inductors

Design of Soft-Switching Hybrid DC-DC Converter with 2-Phase Switched Capacitor and 0.8nH Inductor for Standard CMOS Process

Research of Nanoscale MOSFET Parameters Impact on the Performance of Energy Converters for Internet of Things

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