ARDUINO MEGA PINOUT ISP CODE
This code may seem slightly intimidating at first, due to its length and much newer functions, but once it is broken down, it isn't so hard anymore. For the RES (Reset) pin, connect it up to A8 (analog pin 8) as well as the DC (Data/Command) pin to A9 (analog pin 9). Now, for the i2c connections, hook up the SCL (Serial Clock) pin of the display to A13 (analog pin 13) on the Arduino and the SDA (Serial Data) pin to A11 (analog pin 11). +5v will have a possibility to damage the display. Firstly, take a jumper wire and connect the GND pin on the display to any of your Arduino's GND pins and follow that up by connecting the VCC pin from the display to the 3v3 pin of your Arduino to supply a +3.3 volt power supply to the module. This project is fairly​ straightforward to set up so make sure you start by unplugging any power source feeding into your Arduino to prevent any shorts while wiring. It is a trustworthy website for ordering electronic components with cheap price and excellent quality. 1 USB Data Cable (depends on the Arduino).1 Arduino (the Seeeduino v4.2 is used in this example).Finally, for this project, here are the components which you will need: For the wiring, a 6-pin wiring configuration is used with the SPI interface to the Arduino, which will be shown below.
![arduino mega pinout isp arduino mega pinout isp](http://skproj.ru/wp-content/uploads/2015/07/icsp_hookup.png)
The code used below is a fairly complex code at first, which showcases this display's capabilities and what it can do, in terms of functionality. It is also very easy to program, as it runs on the STT789 display, which is helpful to know, as the Adafruit ST7789 library supports this display, and is what we will be using today.
![arduino mega pinout isp arduino mega pinout isp](https://www.arduino.cc/en/uploads/Hacking/Due16U2UpgradeSPI.jpg)
Since this is a 1.3" 240x240 IPS (In-Plane Switching) TFT display module, it does offer a high-resolution colour display with fine graphics, and that is one of the things which I really enjoy about this display. The voltage regulator allows to use up to 18V as an input value, however we do not recommend exceeding the recommended values aforementioned, since this can lead to excessive heat and damage the device.This project involves yet another Arduino-compatible display which can be used as an output to display any information in the form of graphics, text or animations. The maximum output current for 5V is around 800mA, while for 3.3V it is about 800mA. The used voltage regulator operates in a range of 6 to 9V DC. The board can be powered directly through the Micro USB connector, or via the corresponding contact on the board (Vin).
ARDUINO MEGA PINOUT ISP DRIVER
The board has a Micro USB connector that allows you to connect the microcontroller to the computer via the USB-UART adapter CH340(A driver installation may be required).Ĭonnectivity to the computer is provided through the common micro USB connector (universally used by most phones, including Android smartphones). It uses the original chip, and a 16 MHz high-quality quartz resonators is present on the board. Even though it is an Embed board, it is solid stable as the Mega Board.
ARDUINO MEGA PINOUT ISP PRO
The Mega Pro Embed functionalities are identical to the Arduino Mega 2560. It has a compact form factor of 38 x 54mm and is an excellent solution for developing projects based on ATmega2560.
![arduino mega pinout isp arduino mega pinout isp](https://arduino.pinout.guide/arduino_leonardo_pinout_v2.png)
This board is compatible with the Arduino Mega 2560. The boards might look slightly different than in the pictures. Please Note: This is a generic board, and can be manufactured by a variety of different manufacturers. It is assembled with a genuine Atmel ATmega2560 microcontroller and the low cost CH340G USB-UART interface. This is a low cost and miniature version of the popular Arduino Mega 2560.