Differences
This shows you the differences between two versions of the page.
| Both sides previous revisionPrevious revisionNext revision | Previous revision | ||
| en:iot-open:hardware2:espressif [2023/10/25 08:24] – pczekalski | en:iot-open:hardware2:espressif [2023/11/23 11:07] (current) – pczekalski | ||
|---|---|---|---|
| Line 1: | Line 1: | ||
| - | ==== Espressif Family ==== | + | < |
| - | <box # | + | ====== Espressif Family |
| - | <box # | + | {{:en:iot-open: |
| - | <todo @jpaduch> | + | Arduino and a vast amount of peripheral boards lack integration of the networking capabilities in one SoC. Espressif ESP series was the natural answer for this disadvantage as their ESP 8266 with integrated WiFi, introduced in 2014, is widely recognised as a turning point for the IoT market, delivering de-facto fully functional IoT chip, providing high performance and low power to the end users and developers. ESP32, launched in 2016, brought even more disruptive effects to the IoT ecosystems, introducing an additional Bluetooth interface to the above. |
| - | Espressif System-on-chip (SoC) devices are low-cost microcontrollers | + | The most popular series of these microcontrollers are ESP8266EX, ESP32, ESP32S, C and H families. |
| - | + | ||
| - | * [[en: | + | <note important> |
| - | * [[en: | + | The significant difference is that ESP SoCs (both 8266 and 32) use 3.3 V logic, while most (but not all!) Arduinos use 5 V logic. This can be easily handled using one or bi-directional voltage converters/ |
| - | * [[en: | + | |
| - | * [[en: | + | <WRAP excludefrompdf> |
| - | * [[en: | + | Detailed description is presented in the following chapters: |
| + | * [[en: | ||
| + | * [[en: | ||
| + | * [[en: | ||
| + | * [[en: | ||
| + | * [[en: | ||
| + | </ | ||
