IoT (Internet Of Things). Internet de las cosas. ESP8266-01. Guía Vol: 1: Descripción, funcionamiento, configuración y proyectos prácticos de arranque.

The present work is a theoretical-practical guide for those who want to start in the fascinating world of IoT (Internet of Things) technology. In particular, this volume is directed towards the introductory aspects in the use of the ESP8266 device as a chosen development system by the author for the realization of IoT projects. 


ESP8285 Datasheet


Zerynth Studio for ESP32 and ESP8266

Zerynth allows programming IoT and embedded applications using Python & hybrid C/Python language on Espressif devices. It allows the development of professional grade IoT solutions with reduced development time and high scalability;

The Zerynth stack is composed of:

ZERYNTH STUDIO: A powerful IDE and a Toolchain that provides a platform for developing your Python or hybrid C/Python code and managing your boards.


ESP8266 FOTA Demonstration with Phone App

This guide demonstrates the FOTA (Firmware-Over-The-Air) function for ESP8266-based devices. In particular, the guide outlines the process of upgrading ESP8266 firmware from Espressif Cloud over Wi-Fi by using our Android app. This process requires no technical skills and does not involve a PC or UART based tools. Therefore this process can be carried out by any user, including end users of ESP8266 based products. The FOTA test has been demonstrated and run on the ESP-Launcher, an ESP8266 evaluation board designed by Espressif.


ESP8266 FOTA Demonstration

Espressif provides guidelines and a sample implementation of FOTA (Firmware Over-The-Air) function to upgrade the firmware on devices powered by the ESP8266. ESP8266 device will download a new version of firmware from the update server over Wi-Fi and run it. This guide is intended to help you run a FOTA demonstration on the ESP8266 easily and quickly, with a PC acting as the local update server. The FOTA test has been demonstrated and run on the ESP-Launcher, an ESP8266 evaluation board designed by Espressif.


ESP-Launcher Data Send and Receive Operation Power Consumption Tests

The power consumption of the ESP8266 depends on the PHY mode employed for sending or receiving data. In power critical applications, it is important to balance the average or burst data transfer rate as well as overall power consumption of the system.This test demonstration is intended to demonstrate the results of various power consumption tests on the ESP8266. Based on this guide, users can choose the appropriate PHY mode and data transmission scheme for their application.


TCP/UDP UART Passthrough Test Demonstration

The UART passthrough mode has been provided with the AT firmware to facilitate sending of data blocks of large size and for continuous transmission of small packets of data. In the passthrough mode, the data sent by the main application processor is directly forwarded to the target networking device via a TCP or UDP connection. Here, the ESP8266 AT firmware handles the networking tasks involved. This guide is intended to help users run TCP & UDP passthrough test on the ESP8266 IOT Platform quickly to evaluate the feature with various networking configurations of the ESP8266.


ESP8266 Low Power Test Demonstration

This guide is intended to help implement and test the available low power modes and observe the resulting current consumption of the ESP8266 easily and quickly. It demonstrates the Modem-sleep mode, Light-sleep mode, and Deep-sleep mode.



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