Zobrazeno 1 - 10
of 20
pro vyhledávání: '"Philipp Schonle"'
Autor:
Sadaf Soloukey, Andreas Rowald, Claudia Kathe, Ivan Furfaro, Philipp Schonle, Valentina Paggi, Quentin Barraud, Stéphanie P. Lacour, Jimmy Ravier, Qiuting Huang, Kyungjin Kim, Thomas H. Hutson, Ileana O. Jelescu, Antoine Philippides, Noaf Salah Ali Alwahab, Chris I. De Zeeuw, Daniel Huber, Frédéric Michoud, Leonie Asboth, Noe Brun, Jerome Gandar, Grégoire Courtine
Publikováno v:
Nature Biotechnology, 40 (2)
Nature Biotechnology, 40(2), 198-208. Nature Publishing Group
Nature Biotechnology, 40, 198-208. Nature Publishing Group
Nature Biotechnology, 40(2), 198-208. Nature Publishing Group
Nature Biotechnology, 40, 198-208. Nature Publishing Group
Optoelectronic systems can exert precise control over targeted neurons and pathways throughout the brain in untethered animals, but similar technologies for the spinal cord are not well established. In the present study, we describe a system for ultr
Publikováno v:
IEEE Journal of Solid-State Circuits. 56:1254-1264
This article presents a power-efficient low-jitter fractional-N digital phase-locked loop (DPLL) that resolves phase error (PE) in the fully differential voltage (FDV) domain. Compared with adopting a traditional time-to-digital converter (TDC), whic
Autor:
Rachel Moon, Daniel Taub, Clifford J. Woolf, Sébastien Talbot, Liam E Browne, Michael Tetreault, Zihe Zhang, Corey R. Seehus, Noe Brun, Ivan Furfaro, Philipp Schonle, Benjamin Doyle, Katia Galan, Outman Akouissi, Aakanksha Jain, Stéphanie P. Lacour, Pascale Meier, Frédéric Michoud, Qiuting Huang
Publikováno v:
Nature biotechnology
Activation of nociceptor sensory neurons by noxious stimuli both triggers pain and increases capillary permeability and blood flow to produce neurogenic inflammation1,2, but whether nociceptors also interact with the immune system remains poorly unde
Publikováno v:
VLSI Circuits
This paper presents a Fractional-N (Frac-N) digital phase-locked loop (DPLL) that resolves phase error (PE) in fully differential voltage (FDV) domain, where power-efficient PE detection can be accomplished with higher CMRR, lower PVT sensitivity, fi
Publikováno v:
IEEE Journal of Solid-State Circuits, 53 (7)
We report VivoSoC , a system-on-chip realized in 130-nm CMOS for miniaturized medical instrumentation as used in mobile health devices or implantable telemetry systems for animal experiments. It features six neural stimulation channels and acquisitio
Publikováno v:
BioCAS
We report preliminary work on an implantable telemetry device for photo-plethysmography based vital signs monitoring with a recently reported multi-sensor and parallel processing system-on-chip. The envisioned system would enable monitoring of arteri
Autor:
Thomas Burger, Q. Wang, Luca Benini, Qiuting Huang, Jonathan Bosser, Xu Han, Florian Glaser, Schekeb Fateh, Noe Brun, Philipp Schonle, Giovanni Rovere
Publikováno v:
ESSCIRC
We report a system-on-chip (SoC) realised in 130nm CMOS for implantable telemetry systems and mobile health applications featuring 6 neural stimulation channels and acquisition circuits for 9Ã electrode-based recordings (ExG), 4Ã/32Ã photo-p
Publikováno v:
CICC
We report a photo-plethysmography ASIC realised in a 130nm CMOS technology, which supports multi-channel probe configurations with up to 32 LEDs and 4 photodiodes. The receiver can cover a wide range of (full-scale) input signal strengths between 13n
Autor:
Qiuting Huang, Giovanni Rovere, Philipp Schonle, Luca Benini, Noe Brun, Jonathan Bosser, Florian Glaser, Schekeb Fateh, Pascale Meier, Thomas Burger
Publikováno v:
DSD
We present ongoing work on a platform for mobile health and implantable telemetry devices with powerful point-of-contact processing capabilities based on our VivoSoC multi-sensor medical instrumentation SoC, a custom power management IC, and only a f
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::443ea46e13733856e739a0a799e1f61b
http://hdl.handle.net/11585/624730
http://hdl.handle.net/11585/624730
Publikováno v:
Journal of Hypertension. 36:e12