top of page

NEXT GENERATION
TECH

This is the most innovative cochlear implant, unmatched in technology.

Physics

Enables sound capture, signal processing, and wireless transmission for effective communication.

Chemistry

Ensures biocompatible, durable materials and safe power solutions for implants.

Math

Powers signal processing algorithms, Bluetooth encoding, and system optimizations.

Biology

Guides understanding of hearing and auditory perception for user-centered design.

ESP 32

The ESP32 uses Wi-Fi to connect with the AI assistant, Resona, while its compact design efficiently converts sound to electric signals for high-quality hearing.

166-removebg-preview.png

MAX-9814 MICROPHONE

The MAX9814 microphone offers high-performance, low-noise sound capture with automatic gain control (AGC) for consistent audio. Its compact design ensures clear, precise input, making it ideal for cochlear implants.

Titanium Wire

The use of titanium wire in your cochlear implant project ensures biocompatibility, corrosion resistance, and durability, essential for long-term performance in the human body.

Li-Po BATTERIES

Our project utilizes 400mAh Li-Po (Lithium Polymer) batteries, known for their lightweight design and high energy density. These batteries ensure reliable, long-lasting power, making them ideal for the compact and efficient functioning of our cochlear implant.

3-12-removebg-preview.png
Screenshot_2024-12-06_194827-removebg-preview.png
LP552040-400mAH-1-removebg-preview.png

MAX98357A

Our project uses the MAX98357A amplifier, known for its compact design and efficient audio amplification capabilities. This amplifier ensures clear and precise sound output, enhancing the performance of our cochlear implant system.

Adafruit-MAX98357A-I2S-3W-Class-D-Amplifier-Breakout-Board-1-removebg-preview.png
bottom of page