Category: Electronic

ESP32 E220 and remote switch 2

Implementing E220 LoRa Remote Switch to Conserve Wyse Cam3 Battery

The main goal here is to save battery power for a Wyse Cam3 video camera, which uses 180 mA at 5 volts. Since the camera is web-based and only gets a few views a day, we want to stop it from draining power all the time. Right now, a 10,000-mA battery bank only lasts a day, so we need a better way to manage its power. By using a remote switch controlled by an Async Web Server request, we can ensure the camera isn’t wasting battery when it’s not being used.

Programming Arduino UNO via WiFi with ESP8266 2

Introduction to Remote Programming of Arduino UNO via WiFi with ESP8266

This article will guide you through the methodology of remotely programming an Arduino UNO using ESP8266 modules, specifically focusing on NodeMCU and ESP01, utilizing the ESP-Link firmware. This firmware acts as a bridge, enabling WiFi and serial communication, thereby changing the way we interact with microcontroller boards like the Arduino UNO through ESP8266.

FTP Server on STM32 with ethernet card and SD card or SPI Flash 0

FTP server on STM32 with w5500, enc28j60, SD Card, and SPI Flash

Implementing an FTP server on an STM32 involves integrating the W5500 Ethernet module, ENC28J60 Ethernet controller, SD Card, and SPI Flash. This setup enables efficient network communication and storage, allowing the STM32 to handle file transfers and manage data effectively in embedded systems.

Raspberry Pi Pico (rp2040) AND DS18B20: strong pull-up P-MOSFET gate and alarm

Dallas ds18b20 with Raspberry Pi Pico (rp2040): pull-up P-MOSFET gate and alarms

This article expands on the previous about the connection of DS18B20 sensors to a Raspberry Pi Pico using the OneWire protocol. It covers the use of a P-MOSFET gate as a pull-up resistor for the OneWire bus to improve communication reliability, as well as implementing temperature alarms triggered by a threshold. The article provides step-by-step instructions and code examples for incorporating these features. The goal of the article is to provide readers with advanced techniques for using DS18B20 sensors with a Raspberry Pi Pico.

Raspberry Pi Pico (rp2040)and DS18B20: all OneWire topologies, long stubs and multiple devices

Dallas ds18b20 with Raspberry Pi Pico (rp2040): all OneWire topologies, long stubs and more devices

This article covers how to connect DS18B20 digital temperature sensors to a Raspberry Pi Pico using the OneWire protocol. It includes information on all possible OneWire topologies, how to deal with long wires, and connecting multiple sensors. The article aims to provide a comprehensive guide for using these sensors with a Raspberry Pi Pico, including tips for troubleshooting and optimizing performance.

Arduino SAMD (Nano 33, MKR...) and Ebyte LoRa E70 CC1310

Connecting the EByte E70 to Arduino SAMD (Nano 33, MKR…) devices and a simple sketch example

In this concise guide, we explore the integration of the EByte E70, a powerful long-range transmitter, with Arduino SAMD-based devices like the Nano 33 and MKR series. These Arduino boards, known for their compact size and high performance, are ideal for IoT projects that require long-range communication.

Raspberry Pi Pico (rp2040) and DS18B20: introduction and parasite mode

Dallas ds18b20 with Raspberry Pi Pico (rp2040): introduction and parasite mode

The Dallas DS18B20 is a digital temperature sensor that can be easily integrated with a Raspberry Pi Pico (rp2040) microcontroller. In this response, we will provide an introduction to the DS18B20 sensor and explain how to use it in parasite mode with a Raspberry Pi Pico.

ESP32 c3/s3 e Ebyte LoRa E70 CC1310

Connecting the EByte E70 to ESP32 c3/s3 devices and a simple sketch example

In this article, we explore the process of connecting the EByte E70 module, a long-range RF transceiver, to ESP32 c3/s3 devices, known for their robust IoT capabilities. The ESP32 c3/s3 offers a powerful platform for integrating wireless communication like RF, enabling long-range, low-power IoT applications.