There are 2 repositories under analog-to-digital-converter topic.
Raspberry Pi Pico firmware for universal hardware control & measurement, along with a user-friendly Python frontend
HSPICE and MATLAB simulation files of a tracking SAR ADC
Python library used for ADS1x15 analog to digital converter
A Linux library for the ADS1x15 Analog-to-Digital Converter
A C library for using Texas Instrument ADS1115 analog-to-digital converter with the Raspberry Pi Pico
An ecosystem monitoring setup, ideal for growing plants indoors without user intervention.
Elixir Circuit Library for Interacting with an ADS1115 or ADS1015 Analog-to-Digital Chip
Design, simulation, and estimation toolbox for control-bounded analog-to-digital converters
Repository for Introductory information, resources, and setup files for SudoFlex boards
This is a C library for ADS131 family
Library Driver for ADC's ADS1015 and ADS1115 modules. RPI PICO RP2040 SDK C++
This is a C library for ADS1220
This repository contains CMOS designs and performance outputs of time-to-digital converter (TDC) architectures.
This example demonstrates how to use Freenove ADC Chips PCF8591 and ADS7830 with Raspberry Pi and Python to create a digital LED dimmer with a potentiometer.
MicroPython module for the Texas Instruments ADS1219 ADC
Analog to digital drivers for Sigma Delta Modulators with high level interfaces
Port of Richard Schreier's Delta Sigma Toolbox
ROS2-based joystick. Remotely control your robot via cmd_vel topic
DUB Sparsity for Crossbars
Driver for Texas Instruments TI ADS1115 analog-to-digital converter, written in Python
Documentation for the Jupyter Physical Science Lab Suite of Packages
Interactive analog data acquisition and analysis within Jupyter notebooks using GUI tools.
Embedded systems IO, LCD, Timers, Analog-Digital converter, CAN and UART projects.
Dual axis solar tracking
Simulating ADC background calibration algorithms in OpenCL
A simple Arduino project to show how to continously read analog values directly from the ADC (analog to digital converter) on an ESP32-C3. This is much much much faster than calling analogRead(), so it's useful if you need to read values at a high frequency.
This is a demonstration of recognizing analog meter gauge values using computer vision deep learning model. The model is robust for the real-world scenarios.
ESP32 driver for the ADS1119 analog-to-digital converter with I2C communication handled by i2c_manager
Config files for my GitHub profile.
Demonstration of the mini-lab component activities conducted for the course of Embedded Computing Lab (19CCE283).
A load cell measures the weight using strain gauges. The difference between the length of the load cell at one side of the cell will help in determining the weight that is applied to it. This will change the output impedance. The output impedance is integrated into a Wheatstone bridge where the difference of the output impedance determines and controls the output voltage of the circuit.