Régulateurs "Waterfall" : une nouvelle topologie énergétique pour l'électronique

Ce travail décrit une nouvelle topologie d'alimentation qui apporte des bénéfices aux dispositifs portables et aux composants électroniques à faible consommation. À l'autre extrémité du spectre, il serait également applicable aux systèmes à tension de bus plus élevée, tels que les panneaux solaires et les véhicules électriques, qui doivent décomposer des tensions plus élevées en domaines utilisables. La nouvelle topologie, que nous avons nommée Waterfall regulator, est décrite dans le présent travail et nommée ainsi pour ses caractéristiques saillantes rappelant une chute en cascade. Ce dispositif ouvre de nouvelles perspectives pour les systèmes à très basse consommation, basse tension et courant faible. Le mode de fonctionnement consiste à diviser une source d'alimentation brute en plusieurs domaines de tension, qui peuvent ensuite être utilisés pour alimenter les éléments individuels d'un système ou plusieurs unités indépendantes. Nous décrivons ici le premier rapport sur la réussite de la version de recyclage de l'énergie de ce nouveau système. Le dispositif se caractérise par une série de régulateurs de tension à faible chute et de circuits de déversement de courant (pass MOSFET). Le régulateur partage le courant qui traverse sa charge respective et complète le courant du stade suivant par un déversoir de courant, selon les besoins. Le contrôle s'effectue via une architecture de contrôle en cascade et peut être étendu à des périphériques d'ordre supérieur.This work described a new power supply topology that benefits portable device and low power electronics. At the other end of the spectrum, it is also applicable to higher bus voltage systems like solar panels and electric vehicles that must split higher voltages into usable domains. The new topology, which we named waterfall regulator, is describe herein and named as such for its salient features reminiscent of a waterfall. It opens up a new realm of possibilities for supra low power, low voltage and low current systems. The mode of operation consists of splitting a raw supply source into smaller voltage domains which can then be used for powering individual element of a system or powering multiple independent units. We describe here the first report of successful energy recycling version of this novel system. The devices are composed of a series of low dropout voltage regulators and current spillways circuits (pass MOSFET). The regulators share current passing thought their respective load and supplement current through a current spillway as required. Control is achieved through a cascade architecture and can be scaled up to higher order devices

Peripheral motor neuropathy is associated with defective kinase regulation of the KCC3 cotransporter

This is the author accepted manuscript. The final version is available from American Association for the Advancement of Science via the DOI in this record.Using exome sequencing, we identified a de novo mutation (c.2971A>G; T991A) in SLC12A6, the gene encoding the K(+)-Cl(-) cotransporter KCC3, in a patient with an early-onset, progressive, and severe peripheral neuropathy primarily affecting motor neurons. Normally, the WNK kinase-dependent phosphorylation of T(991) tonically inhibits KCC3; however, cell swelling triggers Thr(991) dephosphorylation to activate the transporter and restore cell volume. KCC3 T991A mutation in patient cells abolished Thr(991) phosphorylation, resulted in constitutive KCC3 activity, and compromised cell volume homeostasis. KCC3(T991A/T991A) mutant mice exhibited constitutive KCC3 activity and recapitulated aspects of the clinical, electrophysiological, and histopathological findings of the patient. These results suggest that the function of the peripheral nervous system depends on finely tuned, kinase-regulated KCC3 activity and implicate abnormal cell volume homeostasis as a previously unreported mechanism of axonal degeneration in humans.This work was supported by NIH research grant GM74771 (E.D.). K.T.K. was supported by a Harvard-MIT Neuroscience Grant, the Manton Center for Orphan Disease Research at Harvard Medical School, and the March of Dimes. C.G.B. is supported by intramural funds of the NINDS. B.F. and D.B.G. received support from NIH grants 2T32MH064913-11A1 and T32-AR056993, respectively

The EcoChip : a wireless multi-sensor platform for comprehensive environmental monitoring

This paper presents the EcoChip, a new system based on state-of-the-art electro-chemical impedance (EIS) technologies allowing the growth of single strain organisms isolated from northern habitats. This portable system is a complete and autonomous wireless platform designed to monitor and cultivate microorganisms directly sampled from their natural environment, particularly from harsh northern environments. Using 96-well plates, the EcoChip can be used in the field for realtime monitoring of bacterial growth. Manufactured with highquality electronic components, this new EIS monitoring system is designed to function at a low excitation voltage signal to avoid damaging the cultured cells. The high-precision calibration network leads to high-precision results, even in the most limiting contexts. Luminosity, humidity and temperature can also be monitored with the addition of appropriate sensors. Access to robust data storage systems and power supplies is an obvious limitation for northern research. That is why the EcoChip is equipped with a flash memory that can store data over long periods of time. To resolve the power issue, a low-power microcontroller and a power management unit control and supply all electronic building blocks. Data stored in the EcoChip’s flash memory can be transmitted through a transceiver whenever a receiver is located within the functional transmission range. In this paper, we present the measured performance of the system, along with results from laboratory tests in-vitro and from two field tests. The EcoChip has been utilized to collect bio-environemental data in the field from the northern soils and ecosystems of Kuujjuarapik and Puvirnituq, during two expeditions, in 2017 and 2018, respectively. We show that the EcoChip can effectively carry out EIS analyses over an excitation frequency ranging from 750 Hz to 10 kHz with an accuracy of 2.35%. The overall power consumption of the system was 140.4 mW in normal operating mode and 81 µW in sleep mode. The proper development of the isolated bacteria was confirmed through DNA sequencing, indicating that bacteria thrive in the EcoChip’s culture wells while the growing conditions are successfully gathered and stored

Gustatory Perception and Fat Body Energy Metabolism Are Jointly Affected by Vitellogenin and Juvenile Hormone in Honey Bees

Honey bees (Apis mellifera) provide a system for studying social and food-related behavior. A caste of workers performs age-related tasks: young bees (nurses) usually feed the brood and other adult bees inside the nest, while older bees (foragers) forage outside for pollen, a protein/lipid source, or nectar, a carbohydrate source. The workers' transition from nursing to foraging and their foraging preferences correlate with differences in gustatory perception, metabolic gene expression, and endocrine physiology including the endocrine factors vitellogenin (Vg) and juvenile hormone (JH). However, the understanding of connections among social behavior, energy metabolism, and endocrine factors is incomplete. We used RNA interference (RNAi) to perturb the gene network of Vg and JH to learn more about these connections through effects on gustation, gene transcripts, and physiology. The RNAi perturbation was achieved by single and double knockdown of the genes ultraspiracle (usp) and vg, which encode a putative JH receptor and Vg, respectively. The double knockdown enhanced gustatory perception and elevated hemolymph glucose, trehalose, and JH. We also observed transcriptional responses in insulin like peptide 1 (ilp1), the adipokinetic hormone receptor (AKHR), and cGMP-dependent protein kinase (PKG, or “foraging gene” Amfor). Our study demonstrates that the Vg–JH regulatory module controls changes in carbohydrate metabolism, but not lipid metabolism, when worker bees shift from nursing to foraging. The module is also placed upstream of ilp1, AKHR, and PKG for the first time. As insulin, adipokinetic hormone (AKH), and PKG pathways influence metabolism and gustation in many animals, we propose that honey bees have conserved pathways in carbohydrate metabolism and conserved connections between energy metabolism and gustatory perception. Thus, perhaps the bee can make general contributions to the understanding of food-related behavior and metabolic disorders

Reinterpretation of LHC Results for New Physics: Status and recommendations after Run 2

We report on the status of efforts to improve the reinterpretation of searches and measurements at the LHC in terms of models for new physics, in the context of the LHC Reinterpretation Forum. We detail current experimental offerings in direct searches for new particles, measurements, technical implementations and Open Data, and provide a set of recommendations for further improving the presentation of LHC results in order to better enable reinterpretation in the future. We also provide a brief description of existing software reinterpretation frameworks and recent global analyses of new physics that make use of the current data

A Survey of Neural Front End Amplifiers and Their Requirements toward Practical Neural Interfaces

When designing an analog front-end for neural interfacing, it is hard to evaluate the interplay of priority features that one must upkeep. Given the competing nature of design requirements for such systems a good understanding of these trade-offs is necessary. Low power, chip size, noise control, gain, temporal resolution and safety are the salient ones. There is a need to expose theses critical features for high performance neural amplifiers as the density and performance needs of these systems increases. This review revisits the basic science behind the engineering problem of extracting neural signal from living tissue. A summary of architectures and topologies is then presented and illustrated through a rich set of examples based on the literature. A survey of existing systems is presented for comparison based on prevailing performance metrics

The influence of height and key on the perceptual similarity of transposed melodies

Contains fulltext : 28525.pdf (publisher's version ) (Open Access)In two experiments, the perceptual similarity between a strong tonal melody and various transpositions was investigated using a paradigm in which listeners compared the perceptual similarity of a melody and its transposition with that of the same melody and another transposition. The paradigm has the advantage that it provides a direct judgment regarding the similarity of transposed melodies. The experimental results indicate that the perceptual similarity of a strong tonal melody and its transposition is mainly determined by two factors: (1) the distance on the height dimension between the original melody and its transposition (pitch distance), and (2) the distance between keys as inferred from the circle of fifths (key distance). The major part of the variance is explained by the factor pitch distance, whereas key distance explains only a small part