Electrical neural interfaces serve as direct communication pathways that connect the
nervous system with the external world. Technological advances in this domain are …

Multichannel electrophysiological sensors and stimulators—particularly those used to study
the nervous system—are usually based on monolithic microelectrode arrays. However, the …

An implantable brain-computer interface (BCI) has proven to be effective in the field of
sensory and motor function restoration and in the treatment of neurological disorders. Using …

A 0.8-mm 3-wireless, ultrasonically powered, free-floating neural recording implant is
presented. The device is comprised only of a 0.25-mm 2 recording integrated circuit (IC) and …

Integrated recording of neural electrical potentials from the brain poses great challenges
due to stringent dynamic range requirements to resolve small-signal amplitudes buried in …

Design of amplifier circuits with low-noise operable at low-power to be used, especially for
implantable neural interfaces, remains a huge challenge. This research paper presents the …

This paper presents a fully integrated resonant regulating rectifier (IR 3) with an on-chip coil
used to wirelessly power mm-sized implants. By combining rectification and regulation in a …

This paper presents a frequency-splitting-based wireless power and data transfer IC that
simultaneously delivers power and forward data over a single inductive link. For data …

About 30% of patients with impaired cardiac function have ventricular dyssynchrony and
seek cardiac resynchronization therapy (CRT). In this study, we demonstrate synchronized …

We present a platform technology encompassing a family of innovations that together aim to
tackle key challenges with existing implantable brain machine interfaces. The ENGINI …