2018年6月17日 星期日

ESP8266 and the Arduino IDE

ESP8266 and the Arduino IDE

Updated: 30.10.2017
The old guide was out of date and had become a little messy and I had been thinking about redoing it for a while. Also, how I use the ESP8266 has changed and since I am using one as part of a IOT Word Clock I am currently building I thought I would update the guide. So, here is the all new version 2.0. The post for the IOT Word Clock will come later, probably much later…

When the ESP8266 first came out there was a lot of excitement and buzz. Here was a new chip that was cheap and allowed internet connectivity. I got caught up in all the excitement and bought several different modules. I intended to use them in various projects where I wanted some kind of remote control. Things didn’t go as planned though, I found the AT command interface very clunky and the ESp8266’s not very reliable. I put the ESP8266s away in the bottom of a draw and moved to Bluetooth.
Things changed when the ESP8266 core for the Arduino IDE was released. This meant you could program them as if they were Arduinos, no more messing around with AT commands. Programming the ESP8266s via the Arduino IDE made things a lot easier and it meant that in many cases you no longer required an Arduino.

 


 

ESP8266 Basic Specs

By now everybody should know that the ESP8266 is, in essence, a small microprocessor with built in wi-fi. It is faster than most Arduinos and has more memory than most Arduinos and has less pins than an Arduino.
  • 32-bit RISC CPU: Tensilica Xtensa L106 running at 80 MHz
  • 64 KiB of instruction RAM, 96 KiB of data RAM
  • External QSPI flash: 512 KiB to 4 MiB (up to 16 MiB is supported)
  • IEEE 802.11 b/g/n Wi-Fi
    • Integrated TR switch, balun, LNA, power amplifier and matching network
    • WEP or WPA/WPA2 authentication, or open networks
  • 16 GPIO pins
  • SPI
  • I²C
  • I²S interfaces with DMA (sharing pins with GPIO)
  • UART on dedicated pins, plus a transmit-only UART can be enabled on GPIO2
  • 10-bit ADC (this is a Successive Approximation ADC)
For small projects that require web connection it can replace an Arduino but for other projects it can be used to complement an Arduino perfectly and this is how I mostly use them. I offload the web part of a project to the ESP8266 and use an Arduino, usually a Nano, as the main microprocessor. The two talk to each other using serial.

 

Adding the ESP8266 core to the Arduino IDE

First things first. You can’t use the Arduino IDE until you have added the ESP8266 core. I presume you have the Arduino IDE either installed, or like me, are using the non installed folder version. In this example I am using IDE version 1.8.3. At the time of writing this is the latest.
Open the preferences, and enter the following address in to the Additional Board Manager URLs field.
http://arduino.esp8266.com/stable/package_esp8266com_index.json
You can enter multiple URLs, you just need to separate them with commas.
For more information about the ESP8266 core visit the projects GitHub page.
ESP8266_001_Install_Arduino_Core
ESP8266_002_Install_Arduino_Core
ESP8266_003_Install_Arduino_Core
After entering the ESP8266 url, open up the board manager window and scroll down to the ESP8266 entry (usually at the bottom).
ESP8266_007_Install_Arduino_Core
Select the ESP8266 entry. When you click it an install option will appear
ESP8266_008b_Install_Arduino_Core
Select the latest version and click install.
ESP8266_009b_Install_Arduino_Core
After the installation has finished, go to the boards section and you should now have a whole list of different ESP8266 modules to chose from.
ESP8266_005_Install_Arduino_Core
The selected board appears at the bottom of the IDE. Here I am using a NodeMCU V0.9 board.
ESP8266_006_Install_Arduino_Core


 

ESP8266 development Boards

There are now many different development boards and for a while it seemed everybody and their dog was creating a new one. I have more-or-less settled on the NodeMCU boards for general development or my own programming board.
To program the ESP8266-01 I built a programming board. This works well but requires a usb-to-serial adapter.
ESP8266-01_ProgrammingBoard
For more details see the ESP8266-01 Programming Breakout Board post.
For normal development I generally use a NodeMCU 0.9 board. Having the usb built in makes these very convenient to use. When these first came out I bought a few and I am still working my way through them. Should I need to buy more I will get the V1.0 or what ever the latest version is at the time.
I use the NodeMCU boards like an Arduino and program them through the Arduino IDE not Lua. When development is done I upload the finished code to what ever ESP8266 module I am using in the project (normally an ESP8266-01).
ESP8266_0014_NodeMCU_Board_01_1200The NodeMCU boards have USB built in and this makes them easy and convenient to use, just connect them to a computer the same as a typical Arduino. Remember the pins are still 3.3v only though.
There is now a 1.0 version which is what I recommend. These have more memory and they fit breadboards better. The 0.9 version fits on to a breadboard but it covers all the holes so you cannot make any connections unless you have it hanging from one side like I do, see the photo below.
NodeMCU V1.0The NodeMCU v1.0 board is slightly slimmer than the v0.9 version so it fits a bread board better. You should also notice the colour of the small ESP8266 daughter board is black rather than blue. This (normally) means the ESP8266 module is using the ESP-12E rather than the ESP-12 chip.
esp8266-LoLin_V3.0_400I also have a couple of the Lolin 3.0 boards which I have had lots of trouble with and recommend you do not buy.


 

NodeMCU Boards

The NodeMCU project is a package of hardware and software and the NodeMCU boards were originally intended to run the LUA language programming language. Conveniently, the boards can be used with the Arduino IDE and be programmed just like another Arduino. When programmed through the Arduino IDE you can think of the NodeMCU board as if it were an Arduino with slightly fewer pins and wifi built in. One thing to note though, is the pin mapping. This is a little different to an Arduino. With the NodeMCU board there are two sets of pin definitions; the ESP8266s GPIO pins and the boards D pins.
If you use a pin number such as:
int LED_Pin = 1;
you refer to the GPIO pin and this is not the same as the D pins labelled on the boards. To reference the pin numbers on the boards you have to use D1:
int LED_Pin = D1;
The below shows the pin mapping for the v0.9 board. Image courtesy of www.cnx-software.com.
ESP8266_0016_NodeMCUv0.9_pinMap
NodeMCU 0.9 Pin Mapping
PINGPIOPINGPIO
D016D612
D15D713
D24D815
D30D93
D42D101
D514

NodeMCU v1.0 Pin Mapping
nodemcudevkit_v1-0_PinMap_1200
CH340GThe NodeMCU boards use the CH340 serial adaptor chip and if this is the first time you have used it you will need a driver. The driver (all OSs) can be downloaded from the manufacturers website here or the Windows driver can be downloaded from this website here.
ESP8266_IDE_BOARDSRemember to select the board you are using in the Arduino IDE. If you are using the ESP8266-01, for example, you need to select “Generic ESP8266 Module”.


 

ESP8266 Sketch 1: Blink an LED

As a first step let’s blink an LED. This may seem very basic but it ensures everything is working as it should be. I am using the NodeMCU 0.9 board but any similar board will work the same.
Connect an LED and resistor to pin D2. Remember the ESP8266 is a 3.3v device so a smallish resistor is required. LEDs generally have a forward voltage drop of 2v-3v depending on the colour. Assuming our LED has a forward voltage drop of 2V and uses 20mA ( 0.02A ) we can calculate (using ohm’s law) the value of the resistor required.
R = supply voltage – voltage drop (Vs – Vf) / Current required (I)
R = (3.3 – 2) / 0.02
R = 65
So I need a 65 ohm resistor, I don’t have any so I am using 100 ohm. When selecting a resistor, slightly larger is OK but a smaller one is not. The larger the resistor the dimmer the LED will appear.

Circuit

Very simple circuit. and LED and a resistor in series connected to D1.
ESP8266_021_Sketch01_circuit_800
ESP8266_020_Sketch01_Breadboard._800

ESP8266 Sketch 1: Blink an LED

This is basically the blink example from the Arduino IDE. All I have done is change the pin. Upload the sketch and if everything is fine the LED should blink on and off once a second.
 
/*
ESP8266 Blink 
Blink an LED connected to pin D1 
*/
 
// ModeMCU pin mapping is a little weird so use D0, D1,D3 rather than 1,2,3
// pin 1,2,3 refers to the GPIO pins
 
int LED_Pin = D1;
 
void setup() 
{
  pinMode(LED_Pin, OUTPUT); 
}
 
void loop() 
{
  digitalWrite(LED_Pin, LOW);   
  delay(1000);
  digitalWrite(LED_Pin, HIGH); 
  delay(1000);  
}
If you have everything correct the LED should blink on/off once a second.
ESP8266_022_Sketch01_LED

Problems Uploading

If you get errors when trying to upload, such as:
warning: espcomm_sync failed
error: espcomm_open failed
error: espcomm_upload_mem failed
error: espcomm_upload_mem failed
Itr is likely that the ESP8266 module is not resetting or is not in upload mode. This often happens when you have selected the wrong board in the IDE.




 

ESP8266 Downloads

CH340/341 drivers all OSes manufacturers site.
CH340 driver for Windows from this website..

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