2.66″ E-ink displays

< Back to products
Outline(mm) (HxVxT) 71.8 x 36.3 x 1.1
Active Area (mm) 60.09 x 30.7
Resolution (pixel) 296 x 152
Pixel Pitch (mm) 0.203 x 0.202
Pixel Density (dpi) 125

The different types of E ink imaging film

E ink film typeTemperature rangeColorsOperating
temperature
Storage
temperature
Remark
AuroraZero aboveblack, white
(BW)
0°C to +50°C-20°C to +60°CStandard monochrome display for most indoor operating conditions.
Support fast updates.
Aurora -25Freezerblack, white
(BW)
-25°C to +30°C-25°C to +60°CSuitable for freezing operating conditions.
Wide TemperatureWideblack, white
(BW)
-15°C to +60°C
(Fast Update: 0°C to +50°C)
-25°C to +70°CNew generation of our unique monochrome display and support fast updates.
Spectra RedZero aboveblack, white, red
(BWR)
0°C to +40°C-25°C to +60°C3-colors pigments inside.
Taking longer time to complete a refresh.
Spectra 4Zero aboveblack, white, red, yellow
(BWRY)
0°C to +40°C-25°C to +60°CNew generation of color display upgraded by BWR to provide additional yellow.

Driver comparison of iTC and eTC

Driver type
iTC (internal timing controller)
eTC (external timing controller)
EPD with host board
EPD with host board
Waveform location
iTC waveform
eTC waveform
Driving waveformEmbedded in driver IC (CoG)Controlled by MCU
Customization / Design flexibility
NormalHigher
Design-in effortEasierNormal
Power consumptionNormalLower
Explanation


  • The driving waveforms (LUTs, lookup tables) have been pre-programmed in the driver IC. Developers just need to send image data and update command to complete the screen refresh.

  • If developers need special support to change the waveforms, extra LUTs can be sent externally.




  • Following our driving guide, developers can fully control the driving flow and stage from the MCU.

  • Developers need to send converted image data at each specific stage.

  • Taking longer time to design-in.

  • Longer initial, power-up and power-off periods. (500ms above)


Technical Details/Specs