The SparkFun ESP8266 Thing is a breakout and development board for the ESP8266 WiFi SoC – a leading platform for Internet of Things (IoT) or WiFi-related. 600 Projetos Prontos em Autocad. Veja em detalhes no site via @mpsnet Projetos digitalizados formato dwg sao 100% editaveis. Organizados em pastas separadas por categorias, visando a melhor e rapida localizacao do assunto procurado. Veja em detalhes neste site.

The SparkFun ESP8266 Thing is a breakout and development board for the ESP8266 WiFi SoC – a leading platform for Internet of Things (IoT) or WiFi-related projects. The Thing is low-cost and easy to use, and Arduino IDE integration can be achieved in just a few steps. We’ve made the ESP8266 easy to use by breaking out all of the module’s pins, adding a LiPo charger, power supply, and all of the other supporting circuitry it requires. Why the name? We lovingly call it the “Thing” due to it being the perfect foundation for your Internet of Things project.

The Thing does everything from turning on an LED to posting data with, and can be programmed just like any microcontroller. Amatissima Toni Morrison Pdf To Excel. You can even program the Thing through the Arduino IDE by installing the. Ford 6000 Cd Code Serial Violetta.

The SparkFun ESP8266 Thing is a relatively simple board. The pins are broken out to two parallel, breadboard-compatible rows. USB and LiPo connectors at the top of the board provide power – controlled by the nearby ON/OFF switch. LEDs towards the inside of the board indicate power, charge, and status of the IC. The ESP8266’s maximum voltage is 3.6V, so the Thing has an onboard 3.3V regulator to deliver a safe, consistent voltage to the IC. That means the ESP8266’s I/O pins also run at 3.3V, you’ll need to level shift any 5V signals running into the IC.

A 3.3V FTDI Basic is required to program the SparkFun ESP8266 Thing, but other serial converters with 3.3V I/O levels should work just fine as well. The converter does need a DTR line in addition to the RX and TX pins. This is quite a common question that we get. Looking at the ESP8266 Thing - Dev board, it was designed to keep the cost of the development board low and there were requests to keep the original ESP8266 Thing. The main differences are: 1.) 2-pin JST connector 2.) LiPo charge circuitry 3.) built-in FTDI 4.) Trace for DTR and Debugging The ESP8266 Thing Dev board does not have the 2-pin JST connector [ ] or the LiPo charge circuitry like the original ESP8266 Thing. We have a variety of chargers available on our storefront if you decide that you want to charge the LiPo without removing a LiPo battery from the ESP8266 Dev board =>.

The LiPoly Charger single cell [ ] is more flexible but it is a bit more expensive compared to the other LiPo chargers. This is due to the amount of components that are populated on the board. The plus side is that there is a built in FTDI on the board to upload code to the board. Personally, I feel that this is a more reliable connection than using the external FTDI basic breakout based on my experience. The ESP8266 Thing Dev board does not include a trace to cut the DTR pin which makes it easier to debug and send serial data to a serial monitor/terminal. You would not need to cut any traces like the original ESP8266 Thing and constantly have to jump the pins when you need to upload. If you see this error output in Arduino v1.6.4 or v1.6.5 and you are using a Mac iOS: Arduino: 1.6.5 (Mac OS X), Board: 'SparkFun ESP8266 Thing, 80 MHz, Serial, 115200' /Users/./Library/Arduino15/packages/esp8266/tools/esptool/0.4.6/esptool returned 139 Error compiling.

Or if you see this output in Arduino v.1.6.6 and a Mac iOS: signal: illegal instruction Error compiling. The issue is probably due to the ESP8266 board definition and your Mac’s iOS version. As soon as we tested this on our older Mac iOS v10.7.5 Lion, we received the same error. Testing this with our engineer’s iOS v10.11 EL Capitan, there were no issues compiling. We tried different board definition versions but we were unsuccessful.

Inima De Tigan Serial Episodul 12. We even tried deleting the definitions in the “Arduino15” Application Data folder and temporary files. We believe the issue stems from the Mac operating system version and the ESP8266 build =>. Try using the a modified version of the esptool v0.4.6 that our engineer quickly packaged through our Google Driver =>. Just unzip the files and replace everything in the esptool folder located in your Arduino’s App Data folder. The directory will probably be: /Users/./Library/Arduino15/packages/ You can also find this through the Arduino IDE and clicking on your preferences.

Otherwise, you would need to update your Mac iOS or wait until there is a fix from the ESP8266 Community. ——————– Tech Support Tips/Troubleshooting/Common Issues ——————– Differences “ESP8266 Thing - Dev Board” vs the Original “ESP8266 Thing”? This is quite a common question that we get. Looking at the ESP8266 Thing - Dev board, it was designed to keep the cost of the development board low and there were requests to keep the original ESP8266 Thing. The main differences are: 1.) 2-pin JST connector 2.) LiPo charge circuitry 3.) built-in FTDI 4.) Trace for DTR and Debugging The ESP8266 Thing Dev board does not have the 2-pin JST connector [ ] or the LiPo charge circuitry like the original ESP8266 Thing. We have a variety of chargers available on our storefront if you decide that you want to charge the LiPo without removing a LiPo battery from the ESP8266 Dev board =>. The LiPoly Charger single cell [ ] is more flexible but it is a bit more expensive compared to the other LiPo chargers.