Wireless interfaces for brain neurotechnologies
Wireless interfaces enable brain-implanted devices to remotely interact with the external
world. They are critical components in modern research and clinical neurotechnologies and …
world. They are critical components in modern research and clinical neurotechnologies and …
Efficient wireless powering of biomedical sensor systems for multichannel brain implants
S Stoecklin, A Yousaf, T Volk… - IEEE Transactions on …, 2015 - ieeexplore.ieee.org
This paper describes the complete mathematical optimization process of an inductive
powering system suitable for the application within implanted biomedical systems. The …
powering system suitable for the application within implanted biomedical systems. The …
A programmable and self-adjusting class E amplifier for efficient wireless powering of biomedical implants
S Stoecklin, T Volk, A Yousaf… - 2015 37th Annual …, 2015 - ieeexplore.ieee.org
In this paper, an enhanced approach of a class E amplifier being insensitive to coil
impedance variations is presented. While state of the art class E amplifiers widely being …
impedance variations is presented. While state of the art class E amplifiers widely being …
[图书][B] Co-Simulation von zur Laufzeit erweiterbaren Automatisierungssystemen im Internet der Dinge
T Jung - 2024 - ias.uni-stuttgart.de
Moderne automatisierte Systeme werden, bedingt durch unterschiedlichste Faktoren,
zunehmend komplexer: So vernetzen sich Systeme durch das Internet der Dinge über …
zunehmend komplexer: So vernetzen sich Systeme durch das Internet der Dinge über …
A maximum efficiency point tracking system for wireless powering of biomedical implants
Inductive power transfer systems are widely used to supply the current generation of
biomedical implants. However, the power transfer efficiency is highly dependent on both the …
biomedical implants. However, the power transfer efficiency is highly dependent on both the …
Design of the wireless power transfer system with uncompensated secondary to increase power transfer capability
This paper presents a design of uncompensated secondary topology wireless power
transfer (WPT) system to address the output power variation problem in series-series (SS) …
transfer (WPT) system to address the output power variation problem in series-series (SS) …
High-efficiency wireless power transfer for mm-size biomedical implants
TP Delhaye, N André, S Gilet, C Gimeno… - 2017 IEEE …, 2017 - ieeexplore.ieee.org
In this study, a wireless power transfer system for miniaturized biomedical implants has been
optimized for a 1mm-diameter receiver coil. This coil is wire wound around a 7.5 mm-long …
optimized for a 1mm-diameter receiver coil. This coil is wire wound around a 7.5 mm-long …
Design of An (8×8) mm2 Efficient Inductive Power Link for Medical Applications
MM Omran, S Mutashar… - 2019 2nd International …, 2019 - ieeexplore.ieee.org
The efficiency of the wireless power transfer system is greatly affected by the geometry of the
planar spiral coils and operating frequency. The size of the implanted PSC is the main …
planar spiral coils and operating frequency. The size of the implanted PSC is the main …
[PDF][PDF] Design of An (8× 8) mm2 Efficient Inductive Power Link for Medical Applications
S Mutashar, MM Omran, A Ezzulddin - researchgate.net
The efficiency of the wireless power transfer system is greatly affected by the geometry of the
planar spiral coils and operating frequency. The size of the implanted PSC is the main …
planar spiral coils and operating frequency. The size of the implanted PSC is the main …
[引用][C] Design and optimization of printed spiral coils used in wireless power transmission systems for powering 10 mm2 receiver size at 13.56 MHz operating …
AS Ezzulddin, AA Ibraheem - International Journal of Current Engineering and …, 2017