Eink Epaper EPD 3.1 Inch 240x320 SPI Ultra Low Power Consumption Front Light Capacitive Touch Panel E-paper Display Module

img
img
  • Eink Epaper EPD 3.1 Inch 240x320 SPI Ultra Low Power Consumption Front Light Capacitive Touch Panel E-paper Display Module
  • Eink Epaper EPD 3.1 Inch 240x320 SPI Ultra Low Power Consumption Front Light Capacitive Touch Panel E-paper Display Module
  • Eink Epaper EPD 3.1 Inch 240x320 SPI Ultra Low Power Consumption Front Light Capacitive Touch Panel E-paper Display Module
  • Eink Epaper EPD 3.1 Inch 240x320 SPI Ultra Low Power Consumption Front Light Capacitive Touch Panel E-paper Display Module

Eink Epaper EPD 3.1 Inch 240x320 SPI Ultra Low Power Consumption Front Light Capacitive Touch Panel E-paper Display Module


TYKEGM031001T01



Product Details
Overview
TYKEGM031001T01 is a reflective electrophoretic display module on an active matrix TFT substrate. The diagonal length of the active area is 3.1” and contains 240x320 pixels.

The panel is capable of displaying 1-bit black, white and red images depending on the associated lookup table used.The circuitry on the panel includes an integrated gate and source driver, timing controller, oscillator, DC-DC boost circuit, and memory to store the frame buffer and lookup tables, and additional circuitry to control VCOM and border settings.
 
Features
  • Ultra low power consumption
  • Ultra wide viewing angle
  • On chip display RAM
  • Interface: 4-Wire SPI or 3-Wire SPI
  • Wide range of operating temperature: 10℃ to 40℃
  • Wide range of Storage temperature: -25℃ to 40℃
  • High reflectance and contrast TFT electrophoretic.
  • I 2C Signal Master Interface to read external temperature sensor.
 
Mechanical Data
NO.
ITEM
SPECIFICATION
UNIT
1
Dot Matrix
320(H)×240(V)
-
2
Screen Size
3.1
Inch
3
Pixels Per Inch
129
-
4
ActiveArea
62.72(H) ×47.04(V)
mm
5
Pixel Pitch
0.196×0.196
mm
6
TFT Area
73.8(H) ×53.24(V)
mm
7
Outline Dimension
89.56(H) ×53.24 (V)×0.912(D)
mm
8
Pixel Configuration
Rectangle
-
9
Driver IC
SEE370
-
10
Module Weight
TBD±10%
gram