Challenges and Trends of Implantable Functional Electrical Neural Stimulators: System Architecture and Parameters
Electrical neural stimulators (ENS) play a crucial role in medical applications and have
emerged as promising therapeutic techniques for neurological disorders. The purpose of …
emerged as promising therapeutic techniques for neurological disorders. The purpose of …
A 4-channel neural stimulation IC design with charge balancing and multiple current output modes
J Li, W Chen, X Liu, P Wan… - IEEE Transactions on …, 2023 - ieeexplore.ieee.org
This article proposes a neural stimulation integrated circuit design with multiple current
output modes. In the cathodic stimulation phase and anodic stimulation phase, each output …
output modes. In the cathodic stimulation phase and anodic stimulation phase, each output …
An Analysis of Traditional Methods and Deep Learning Methods in SSVEP-Based BCI: A Survey.
J Wu, J Wang - Electronics (2079-9292), 2024 - search.ebscohost.com
The brain–computer interface (BCI) is a direct communication channel between humans and
machines that relies on the central nervous system. Neuroelectric signals are collected by …
machines that relies on the central nervous system. Neuroelectric signals are collected by …
Design of an exponential current generator for neural stimulation
This paper proposes a new exponential current generation circuit design for neural
stimulation. The use of exponential output current can improve the power efficiency. The …
stimulation. The use of exponential output current can improve the power efficiency. The …
A 4-channel neural stimulation IC design with charge balancing and exponential current output
This paper presents a 4-channel neural stimulation integrated circuit design with
exponential current output. Using exponentially decaying current output for neural …
exponential current output. Using exponentially decaying current output for neural …
A 2‐mA charge‐balanced neurostimulator in 0.18‐μm/1.8 V standard CMOS process
This paper presents a programmable neurostimulator 4× VDD with 7.2 V operating voltage
in a 0.18‐μm/1.8 V CMOS process. The output voltage compliance exceeds 6.2 V. A current …
in a 0.18‐μm/1.8 V CMOS process. The output voltage compliance exceeds 6.2 V. A current …
An Exponential Current Generation Circuit Using the Taylor Series Approximation for Neural Stimulators
An exponential current generation circuit for neural stimulators is presented. Compared to
the conventional exponential current generation circuits, the proposed circuit features higher …
the conventional exponential current generation circuits, the proposed circuit features higher …
Design of a biphasic current-matching neural stimulator
A biphasic current-matching neural stimulator based on 0.18 μm CMOS process is
presented. The stimulator can output biphasic current ranging from 5 μA to 160 μA and its …
presented. The stimulator can output biphasic current ranging from 5 μA to 160 μA and its …
A Charge Balanced Neural Stimulator Silicon Chip for Human-Machine Interface
This paper proposes a neural stimulator silicon chip design with an improved charge
balancing technology. The proposed neural stimulation integrated circuit (IC) uses two …
balancing technology. The proposed neural stimulation integrated circuit (IC) uses two …
On-Chip High-Voltage Buffer Design for Implantable Neural/Muscular Stimulators
This paper presents an on-chip buffer design for implantable high-voltage neural/muscle
stimulators. The buffer is designed in 0.18 μm CMOS process technology with 24-V LDMOS …
stimulators. The buffer is designed in 0.18 μm CMOS process technology with 24-V LDMOS …