1.8 tft display datasheet factory

ER-TFTM018-2 is 128x160 dots 1.8" color tft lcd display with ILI9163 controller and breakoutboard,optional power supply for 3.3V or 5V and optional 4-wire resistive touch panel,superior display quality,super wide viewing angle and easily controlled by MCU such as 8051, PIC, AVR, ARDUINO,ARM and Raspberry PI.It can be used in any embedded systems,industrial device,security and hand-held equipment which requires display in high quality and colorful image.

Of course, we wouldn"t just leave you with a datasheet and a "good luck!".Here is the link for1.8"TFT LCD Shield with Libraries, EXxamples.Schematic Diagram for Arduino Due,Mega 2560 and Uno. For 8051 microcontroller user,we prepared the detailed tutorial such as interfacing, demo code andDevelopment Kitat the bottom of this page.

Note: ILI9163C Datasheets improperly (not traditional) refer to SPI as a Serial Interface. Please see timing diagram in 6.2.1 called "3-line Serial Interface Protocol"

The DT018ATFT does not support 4-Wire SPI (also known as "4-line Serial Interface Protocol", 8-bit data, which includes a separate D/C signal line). DT018ATFT does not support this since the signal in ILI9163C datasheet called "SPI4" is hard coded to 0. However, a custom version of the FPC can be tooled to expose the proper 4-Wire SPI signals - please contact us for more details.

The provided display driver example code is designed to work with Microchip, however it is generic enough to work with other micro-controllers. The code includes display reset sequence, initialization and example PutPixel() function.

This 128x160 resolution LCD TFT is equipped with a powerful backlight, providing visibility in bright lighting conditions including the direct sun. The sunlight readable display comes with 3/4-wire SPI interface and offers a 6:00 optimal view. This 2.8V Liquid Crystal Display has a built-in ILI9163V controller, FFC connection, is RoHS compliant and has a 4-wire resistive touchscreen.

Choose from a wide selection of interface options or talk to our experts to select the best one for your project. We can incorporate HDMI, USB, SPI, VGA and more into your display to achieve your design goals.

Equip your display with a custom cut cover glass to improve durability. Choose from a variety of cover glass thicknesses and get optical bonding to protect against moisture and debris.

This ST7735S 1.8" TFT Display features a resolution of 128×160 and SPI (4-wire) communication. Integrated with an SD card slot, it allows to easily read full-color bitmaps from the SD card. The module provides users with two wiring methods: pin header wiring and GDI (General Display interface). You can directly use an FPC cable to connect the display to any controller with GDI interface like FireBeetle-M0. Plug and play, easy to wire. Besides, the display supports low refresh rate and offers good display effect and strong versatility. It can be used in applications like sensor monitoring and alarm, Arduino temperature monitor, fan controller, etc.

This product is a breakout module that features SPI communication mode and onboard GDI interface, which could reduce the complexity of wiring. It can easily display the read content from the SD card.

The BasicTest.ino code shows us the basic display functions of the screen: text display, number display, drawing lines, drawing rectangles and other demos.

screen.drawXBitmap(/*x=*/(screen.width()-146)/2,/*y=*/(screen.height()-128)/2,/*bitmap gImage_Bitmap=*/gImage_XBitmap,/*w=*/146,/*h=*/128,/*color=*/0x0000);

screen.drawRGBBitmap(/*x=*/(screen.width()-146)/2,/*y=*/(screen.height()-128)/2,/*bitmap gImage_Bitmap=*/(const unsigned uint16_t*)gImage_RGBBitmap,/*w=*/146,/*h=*/128);

To purchase the computer, you must have visited the computer stores. And, if you have gone there, you must have seen the TFT AMLCD monitor there. The thin-film transistor active matrix display, the high-quality flat screen monitor. The technology is often known as the active matrix. Moreover, it’s are of greater quality than the passive matrix. Because it uses exceptional image qualities like contrast and addressability. Hence, used in video games, etc. So, if you are looking to build some entering projects, this tutorial is for you. Because, In this tutorial, we are going to interface “1.8 TFT Color Display ST7735 with Arduino UNO”.

A TFT display has a liquid crystal layer between the substrate and the pixel electrode. When the change of the voltage is applied to the liquid crystal, it changes the transmittance of panels. Thus, changes the quantity of light from the backlight. As a result, LCD generates full-color images.

Assemble the circuit according to the above schematic to Interface Display 1.8 TFT with Arduino UNO. Further, open your Arduino IDE and paste the above-mentioned code. After that, upload that code. Arduino will pass the commands to the display. Now, you will see that shapes would appear on the TFT screen.

Now include the TFT library. Also, include the SPI library to communicate with the external display. After that, define the display pins that are connected with the pins of Arduino.

In the void setup, initialize the TFT display by using the TFTscreen. begin ( ). Then, set the background colors of a display by using the TFTscreen.background( ).

In the void loop, generate a random color by giving the random( ) command. Choose the random font color by giving the command TFT. stroke( ).Draw the line on a display by using TFTscreen. line( ). Use TFTscreen.rect( ) to draw a square. Use TFTscreen.circle( ) to draw a circle. At last, to clear the display set the background to 0 by using TFTscreen. background(0, 0, 0).

Got three of them all working(1 with Arduino Leonardo and 2 with NodeMCU ESP8266).arduino will need a solution to the 5v out 3.3v in(10s solder job) NodeMCU is directly compatible.i used adafruits code.Very happy. getting more. also hiletgo products have all been functional so far. becoming a fan.Update: switched to TFT_eSPI.h library. Wow. Orders of magnitude faster display now. A bit trickier to setup but well worth it.