Designed to fit your lab:
Wire up your sensors to the dedicated ADC, connect your prosthesis battery, and you are ready to log data on the MicroSD. Fancy Bluetooth for maximum flexibility? Pair the board via BLE and stream data to your device. The USB is always available to feed data straight into your acquisition suite.
Fully digital system? You can connect your I²C sensors and your CAN-driven solutions. Want to simulate sensor signals? There's a dual-channel DAC that can do just that.
The user-friendly programming approach of the Arduino platform will help you focus on what's important: getting the work done. The myo32 software will be publicly available and examples will be provided for basic use of all the components, providing abstractions from the low-level hardware.
myo32: Digital Health Development Board
ESP32-S3 microcontroller.
Bluetooth 5.3 and WiFi 2.4GHz to stream the data anywhere.
Fully compatible with the Arduino programming environment.
Micro-SD slot.
8 channels 5V 12bit ADC for analogue sensors.
2 channels 5V/3.3V 12 bit DAC to generate analogue signals.
5 generic GPIO pins capable of capacitive sensing.
On-Board dedicated RTC clock for accurate datalogging.
Addressable RGB LED for operational status.
I²C to connect any external sensor.
CAN-BUS for reliable digital communications.
USB Type-C for uploading code and serial communications.
Standard connectors and Arduino headers.
5.5V to 12V power input, compatible with any battery.
USB and battery dual-input smart safety circuit.
ESD protected USB.
External BT/WiFi antenna for optimal positioning.
