1.8 tft display datasheet manufacturer

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.

The 1.8inch LCD uses the PH2.0 8PIN interface, which can be connected to the Raspberry Pi according to the above table: (Please connect according to the pin definition table. The color of the wiring in the picture is for reference only, and the actual color shall prevail.)

ST7735S is a 132*162 pixel LCD, and this product is a 128*160 pixel LCD, so some processing has been done on the display: the display starts from the second pixel in the horizontal direction, and the first pixel in the vertical direction. Start to display, so as to ensure that the position corresponding to the RAM in the LCD is consistent with the actual position when displayed.

Note: Different from the traditional SPI protocol, the data line from the slave to the master is hidden since the device only has display requirement.

Framebuffer uses a video output device to drive a video display device from a memory buffer containing complete frame data. Simply put, a memory area is used to store the display content, and the display content can be changed by changing the data in the memory.

If you need to draw pictures, or display Chinese and English characters, we provide some basic functions here about some graphics processing in the directory RaspberryPi\c\lib\GUI\GUI_Paint.c(.h).

Set points of the display position and color in the buffer: here is the core GUI function, processing points display position and color in the buffer.

The fill color of a certain window in the image buffer: the image buffer part of the window filled with a certain color, usually used to fresh the screen into blank, often used for time display, fresh the last second of the screen.

Display time: in the image buffer,use (Xstart Ystart) as the left vertex, display time,you can choose Ascii visual character font, font foreground color, font background color.;

Note: Each character library contains different characters; If some characters cannot be displayed, it is recommended that you can refer to the encoding set ro used.

The first parameter is a tuple of 2 elements, with (40, 50) as the left vertex, the font is Font2, and the fill is the font color. You can directly make fill = "WHITE", because the regular color value is already defined Well, of course, you can also use fill = (128,255,128), the parentheses correspond to the values of the three RGB colors so that you can precisely control the color you want. The second sentence shows Micro Snow Electronics, using Font3, the font color is white.

For the screen, if you need to draw pictures, display Chinese and English characters, display pictures, etc., you can use the upper application to do, and we provide some basic functions here about some graphics processing in the directory STM32\STM32F103RB\User\GUI_DEV\GUI_Paint.c(.h)

Image buffer part of the window filling color: the image buffer part of the window filled with a certain color, generally as a window whitewashing function, often used for time display, whitewashing on a second

Display time: in the image buffer,use (Xstart Ystart) as the left vertex, display time,you can choose Ascii visual character font, font foreground color, font background color.

For the screen, if you need to draw pictures, display Chinese and English characters, display pictures, etc., you can use the upper application to do, and we provide some basic functions here about some graphics processing in the directory GUI_Paint.c(.h)

Display time: in the image buffer,use (Xstart Ystart) as the left vertex, display time,you can choose Ascii visual character font, font foreground color, font background color.

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.

Here"s a very cool TFT LCD display with 128 x 160 resolution and 18-bit color depth. The most unique feature of the screen is the ability to read back the display memory across the bi-directional data lines. This solves a big problem with most displays - the need for a lot of memory to create effects like transparency or overlapping windows. This is an ideal component to include in your next custom project to advance your embedded hardware/software skills.

The reason that we"re reselling this part rather than using it on a new product is because of a misunderstanding about the interface details. It uses a 3-wire SPI interface with 9-bit transfers. The first bit is used to indicate if the following byte is data or a command. While 9-bit transfers are supported by many modern microcontrollers (like the K66 or STM32 families), making that work with vanilla Arduino is unlikely to happen any time soon. Since SparkFun products need out-of-the-box support for Arduino the interface had to be restricted to bit-banging - just too slow for a display with this resolution!

So we"re handing off this cool part to people willing to stretch their comfort level and move beyond basic Arduino functionality. Using a modern microcontroller of your choice and taking advantage of 9-bit SPI transfers - or a full parallel bus - you can unlock the full power of this display. Not only are we giving this to you at the cost you"d expect from a manufacturer but we"re passing along some of the work we"ve done so far: You can find the mating FPC connector here and some SW/HW work in the documents tab.

This little ST7735 display is the best way to add a small, colorful and bright display to any project. The display uses SPI Interface to communicate and has its own pixel-addressable frame buffer, it can be used with every kind of microcontroller. Even a very small one with low memory and few pins available!

The 1.8″ display has 128×160 color pixels. Unlike the low cost “Nokia 6110” and similar LCD displays, which are CSTN type and thus have poor color and slow refresh, this display is a true TFT! The TFT driver (ST7735) can display full 18-bit color (262K shades).

The Display Module has the TFT display soldered on (it uses a delicate flex-circuit connector) as well as a ultra-low-dropout 3.3V regulator. The modules also has an SD card holder so you can easily load full color bitmaps from a FAT16/FAT32 formatted SD card.

The I/O of the Display Module is 3.3v voltage , so you should not directly connect it to the 5v voltage I/O. IO level translator or series limiting resistors should be used.

Outline Dimension100.00*70.00*1.60105.5*67.2*2.9105.5*67.2*4.45105.50*67.20*7.72105.80*85.09*6.73116*37*13.212*11*1.227120.7*75.8*2.8120.7*75.85*2.84120.70*75.85*2.84120.70*75.85*3.18120.70*76.30*8.07120.70*97.05*7.27122*44*12.3128*69*9.214.5*11.614*28*1.227146*62.5*14164.9*100.0*11.8164.9*100.0*3.35164.9*100.0*3.4164.90*100.00*2.80165.00*104.00*6.5165.30*101.00*9.07165.30*121.00*7.75165*10.0*7.38174.00*136.00*2.45176.40*114.00*8.618.46*18.1*1.21180*40*13.8183.00*141.00*10.26206.7*122.93*1.43229.46*149.1*2.5229.46*149.10*4.90235*143*524.74*16.90*1.4225.0*28.5*2.226.04*31.7826.3*8*1.22726.70*19.26*1.4127.40*27.00*1.4627.40*27.00*1.4627.95*13.54*1.8528.2*32.3*2.128.2*32.3*2.129.00*8.7*1.2230.0*11.50*1.22731.52*33.72*1.7333.13*37.08*3.3833.22*34.72*0.6834.00*45.83*2.6034.00*45.83*2.7534.5*23*1.42734.98*50.57*2.1035.60*50.20*2.1036.0*20.0*2.8536.60 × 51.20 × 3.7537.68*51.30*2.2338.6*40.5*0.6738.83*38.21*0.6841.90*55.26*2.3542.04*27.22*1.4142.52*60.50*2.242.72*60.26*2.2042.72*60.26*2.3042.72*60.26*2.4543.44*74.79*2.646.20*46.20*7.7046.80*42.00*7.9047.72*60.26*2.4048.70*57.20*4.0050.00*69.20*2.550.00*69.20*2.5050.00*69.20*3.8051.15*35.36*3.952.00*28.00*2.1055.04*77.70*2.4055.20*47.55*2.8056.4*36.8*5.556.94*97.10*1.1657.50*41.70*3.9058.0*32.0*13.6558.00*32.00*9.759.14*97.95*3.8059.71*56.18*2.2264.30*118.30*1.5565.0*27.7*2.869.06*104.5*0.1.770.00*35.00*13.9071.0*51.8*5.371.0*52.6*6.871.05*29.30*2.3073.00*41.86*2.0076.20*63.20*3.2176.90*63.90*3.0576.90*63.90*3.2076.90*63.90*3.2776.90*63.90*6.0578.2*65*4.680*36*11.884*44*12.885*30*11.886.31*86.31*3787* 60*13

Key words: tft 1.8", 1.8 tft lcd, 1.8" tft lcd, 1.8 inch tft lcd, tft lcd 1.8, 1.8 tft display, 1.8" tft display, 1.8 inch tft display, tft display 1.8, tft display 1.8", 1.8 tft lcd, tft 1.8

TFT display is a kind of liquid crystal LCD that is connected to each pixel using a transistor and it features low current consumption, high-quality, high-resolution and backlight. This 1.8 inch full color LCD has a narrow PCB screen. The resolution is 128×160 pixels and it has a four-wire SPI interface and white backlight. The driver is ST7735.

my_lcd.Draw_Line(2+random(my_lcd.Get_Display_Width()-4),12+random(my_lcd.Get_Display_Height()-24),2+random(my_lcd.Get_Display_Width()-4),12+random(my_lcd.Get_Display_Height()-24));

my_lcd.Draw_Rectangle(2+random(my_lcd.Get_Display_Width()-4),12+random(my_lcd.Get_Display_Height()-24),2+random(my_lcd.Get_Display_Width()-4),12+random(my_lcd.Get_Display_Height()-24));

my_lcd.Draw_Round_Rectangle(2+random(my_lcd.Get_Display_Width()-4),13+random(my_lcd.Get_Display_Height()-26),2+random(my_lcd.Get_Display_Width()-4),13+random(my_lcd.Get_Display_Height()-26),5);

my_lcd.Draw_Triangle(2+random(my_lcd.Get_Display_Width()-4),12+random(my_lcd.Get_Display_Height()-24),2+random(my_lcd.Get_Display_Width()-4),12+random(my_lcd.Get_Display_Height()-24),2+random(my_lcd.Get_Display_Width()-4),12+random(my_lcd.Get_Display_Height()-24));

my_lcd.Fill_Round_Rectangle(my_lcd.Get_Display_Width()/2-1-62+1, my_lcd.Get_Display_Height()/2-1-40+1, my_lcd.Get_Display_Width()/2-1+62-1, my_lcd.Get_Display_Height()/2-1+40-1,5);

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 you 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 connect the display to a FireBeetle main controller using an FPC cable. Plug and play, easy to wire. Besides, the display supports a low refresh rate and offers a good display effect and strong versatility.