Andrea Ballo scite author profile

With the aim of providing designer guidelines for choosing the most suitable solution, according to the given design specifications, in this paper a review of charge pump (CP) topologies for the power management of Internet of Things (IoT) nodes is presented. Power management of IoT nodes represents a challenging task, especially when the output of the energy harvester is in the order of few hundreds of millivolts. In these applications, the power management section can be profitably implemented, exploiting CPs. Indeed, presently, many different CP topologies have been presented in literature. Finally, a data-driven comparison is also provided, allowing for quantitative insight into the state-of-the-art of integrated CPs.

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A Subthreshold Cross-Coupled Hybrid Charge Pump for 50-mV Cold-Start

Ballo

Grasso

Palumbo

2020

IEEE Access

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In this paper, a fully-integrated switched-capacitor DC-DC converter based on a Dickson charge pump able to work with input voltage levels that force the transistors working in subthreshold region is presented. The proposed topology exploits resistors in the charge transfer switch in order to overcome the limits of conventional solutions when working in the subthreshold regime. Post-layout simulations using a 28-nm FD-SOI technology show that the CP can boost an input voltage as low as 50 mV to a maximum output voltage of 270 mV, keeping a settling time about 25X lower than the conventional dual-branch cross-coupled charge pump and a voltage conversion efficiency higher than 76%. The proposed topology is particularly suited for the start-up of power management units supplied by thermoelectric generators.

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Charge Pumps for Ultra-Low-Power Applications: Analysis, Design, and New Solutions

Ballo

Grasso

Palumbo

et al. 2021

IEEE Trans. Circuits Syst. II

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A Review of Power Management Integrated Circuits for Ultrasound-Based Energy Harvesting in Implantable Medical Devices

2021

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This paper aims to review the recent architectures of power management units for ultrasound-based energy harvesting, while focusing on battery-less implantable medical devices. In such systems, energy sustainability is based on piezoelectric devices and a power management circuit, which represents a key building block since it maximizes the power extracted from the piezoelectric devices and delivers it to the other building blocks of the implanted device. Since the power budget is strongly constrained by the dimension of the piezoelectric energy harvester, complexity of topologies have been increased bit by bit in order to achieve improved power efficiency also in difficult operative conditions. With this in mind, the introduced work consists of a comprehensive presentation of the main blocks of a generic power management unit for ultrasound-based energy harvesting and its operative principles, a review of the prior art and a comparative study of the performance achieved by the considered solutions. Finally, design guidelines are provided, allowing the designer to choose the best topology according to the given design specifications and technology adopted.

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Optimized Charge Pump With Clock Booster for Reduced Rise Time or Silicon Area

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Giustolisi

et al. 2019

IEEE Trans. Circuits Syst. II

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Theoretical and experimental study of the role of cell-cell dipole interaction in dielectrophoretic devices: application to polynomial electrodes

Camarda

Fisicaro

Anzalone

et al. 2014

BioMedical Engineering OnLine

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BackgroundWe aimed to investigate the effect of cell-cell dipole interactions in the equilibrium distributions in dielectrophoretic devices.MethodsWe used a three dimensional coupled Monte Carlo-Poisson method to theoretically study the final distribution of a system of uncharged polarizable particles suspended in a static liquid medium under the action of an oscillating non-uniform electric field generated by polynomial electrodes. The simulated distributions have been compared with experimental ones observed in the case of MDA-MB-231 cells in the same operating conditions.ResultsThe real and simulated distributions are consistent. In both cases the cells distribution near the electrodes is dominated by cell-cell dipole interactions which generate long chains.ConclusionsThe agreement between real and simulated cells’ distributions demonstrate the method’s reliability. The distribution are dominated by cell-cell dipole interactions even at low density regimes (105 cell/ml). An improved estimate for the density threshold governing the interaction free regime is suggested.

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A simple and effective design strategy to increase power conversion efficiency of linear charge pumps

Ballo

Grasso

Palumbo

2019

Circuit Theory & Apps

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Carbon nanotube-based sensing devices for human Arginase-1 detection

Baldo

Buccheri²,

Ballo

et al. 2016

Sensing and Bio-Sensing Research

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Andrea Ballo

A Review of Charge Pump Topologies for the Power Management of IoT Nodes

A Subthreshold Cross-Coupled Hybrid Charge Pump for 50-mV Cold-Start

Charge Pumps for Ultra-Low-Power Applications: Analysis, Design, and New Solutions

A Review of Power Management Integrated Circuits for Ultrasound-Based Energy Harvesting in Implantable Medical Devices

Optimized Charge Pump With Clock Booster for Reduced Rise Time or Silicon Area

Theoretical and experimental study of the role of cell-cell dipole interaction in dielectrophoretic devices: application to polynomial electrodes

A simple and effective design strategy to increase power conversion efficiency of linear charge pumps

Carbon nanotube-based sensing devices for human Arginase-1 detection

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