We are developing a fully-implantable neural recording system with wireless power and data transfer. As part of this system, we have developed a low-power ...

Signal Amplification, Detection and Transmission in a. Wireless 100-Electrode Neural Recording System. Paul T. Watkins, Ryan J. Kier, Robert 0. Lovejoy ...

... wireless neural recording device. The device uses an integrated circuit to amplify modulate and transmit neural signals. The IC transmits neural signals (15 ...

An implantable IC receives power and commands wirelessly through an ASK inductive link, and transmits amplified neural data using a 433MHz FSK transmitter.

An implantable IC receives power and commands wirelessly through an ASK inductive link, and transmits amplified neural data using a 433MHz FSK transmitter.

Jan 19, 2015 · We developed a compact wireless recording system with a motorized microdrive. Wireless control of electrode placement facilitates the exploration of single ...

A Low-Power Integrated Circuit for a Wireless 100-Electrode Neural Recording System. ... This chip will directly connect to all 100 electrodes, amplify the neural ...

The first amplifier is configured to amplify a neuron signal detected via an electrode inserted in tissue of the patient. The chip identifier module is ...

The total power consumed by the INI3 chip is 8 mW. Of this, the 100 neural signal amplifiers consume 44% of the total power, the 100 spike detectors consume 22% ...

The system was designed to detect extracellular activity potential in the brain. Highly power-efficient front-end signal processing, spike detector, analog-to- ...