OLED 4pin 128x32 Display Module 0.91" Blue Color

OLED’s are the future of displays, as they possess some of the greatest advantages over both conventional display technologies of LCD’s and LED‘s.

Features:OLED Display Module

  • GND: Power Ground
  • VCC: Power + (DC 3.3 ~5v)
  • SCL: Clock Line
  • SDA: Data Line
  • No need of the back light
  • The display is self-illuminating
  • Power requirement is low
  • They are offering the large viewing angle
  • Better performance characteristics than traditional LCD and LED displays.
  • Operating Voltage(VDC): 3.3 to 5
  • Pixel Resolution: 128 x 32
  • Character Color: Blue
  • Background Color: Black
  • PCB Size (mm): 38×12

Pin Description:

GNDPower Ground
VCC: Power + (DC 3.3 ~5v)
SCLClock Line
SDAData Line
 

This 0.91 inch 128×32 Blue OLED Display Module offers 128×32 pixel resolution. They are featuring much less thickness than LCD displays with good brightness and also produce better and true colors. 

 
 
Qty :

 
The 0.91 inch 128×32 Blue OLED Display Module produces blue text on black background with very good contrast when supplied with DC 2.8V supply. The OLED Display Modules also offers a very wide viewing angle.
 
The most attractive thing about using the OLED display is that they don't need a back-light like conventional LCD & LED screens. The organic material itself has a property known as Electroluminescence (EL), this causes the material to “glow” when stimulated by the current or an electric field. This is the Best energy-saving displays ever!!!
 
Here 0.91 inch 128×32 Blue OLED Display Module offers 128×32 pixel resolution. They feature much less thickness than LCD displays with good brightness and also produce better and true colors. 
 
These OLED Display Module are very compact and will add a great ever user interface experience to your Arduino projects. The connection of this display with Arduino is made through the I2C(also called IIC) serial interface.
 
Here 0.91 inch 128×32 Blue OLED Display Module produces blue text on black background with very good contrast when supplied with DC 2.8V supply. The OLED Display Modules also offers a very wide viewing angle which is best in the industry.
 
OLED’s are the future of displays, as they possess some of the greatest advantages over both conventional display technologies of LCD’s and LED‘s.
 
OLEDs are the longer term of displays, as they possess a number of the best advantages over both the traditional display technologies of LCDs and LED. The most attractive thing about using the OLED display is that they don't need a back-light like conventional LCD & LED screens. The organic material itself has a property known as Electroluminescence (EL), this causes the material to “glow” when stimulated by the current or an electric field. This is the Best energy-saving displays ever. Here 0.91 inch 128×32 Blue OLED Display Module offers 128×32 pixel resolution. They feature much less thickness than LCD displays with good brightness and also produce better and true colors. These OLED Display Module are very compact and can add an excellent ever interface experience to your Arduino projects. The connection of this display with Arduino is made through the I2C(also called IIC) serial interface. Here 0.91 inch 128×32 Blue OLED Display Module produces blue text on black background with very good contrast when supplied with DC 2.8V supply. The OLED Display Modules also offers a really wide viewing angle which is best within the industry.
 
OLED (Organic Light-Emitting Diode) is a self light-emitting technology composed of a thin, multi-layered organic film placed between an anode and cathode. In contrast to LCD technology, OLED does not require a backlight. OLED possesses high application potential for virtually all types of displays and is regarded as the ultimate technology for the next generation of flat-panel displays.
 
OLEDs basic structure consists of organic materials positioned between the cathode and therefore the anode, which consists of electrical conductive transparent Indium Tin Oxide (ITO). The organic materials compose a multi-layered thin film, which includes the Hole Transporting Layer (HTL), Emission Layer (EML) and the Electron Transporting Layer (ETL). By applying the acceptable electric voltage, holes and electrons are injected into the EML from the anode and therefore the cathode, respectively. The holes and electrons combine inside the EML to make excitons, after which electro luminescence occurs. The transfer material, emission layer material and selection of electrode are the key factors that determine the standard of OLED components.
 
OLED display, no need backlight, self-illumination, the display performance is best than the normal LCD display, also lower consumption. I2C interface, requires only two signal pin. It Comes with development resources and manual (examples for Raspberry Pi/Jetson Nano/Arduino/STM32).