SSD1306OLED displaydatasheet

There is a great tutorial on Adafruit Learn, follow the instructions for the 128x32 I2C Display. It is surprising how easy it is to work with this module.

Luminous transmittance is important in various applications where the clarity and brightness of transmitted light are crucial. For example, it is a key factor in the design of windows, eyeglasses, and optical instruments. High luminous transmittance ensures that these materials allow sufficient light to pass through, improving visibility and comfort.

0.96''OLED display

Several factors can affect luminous transmittance, including the thickness of the material, its composition, surface coatings, and any impurities or defects present. For example, thicker materials or those with additional coatings may have lower luminous transmittance due to increased absorption and scattering of light.

Luminous transmittance is measured using a spectrophotometer, which quantifies the amount of light passing through a material at different wavelengths. The measurements are then weighted according to the human eye's sensitivity to different wavelengths, resulting in a single value that represents the material's ability to transmit visible light.

0.96 inchOLED DisplayDatasheet

This OLED display has a wide display area for the times you need to read longer data on a screen. It is easy to connect with I²C and only uses two data wires!

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Luminous transmittance is a measure of the amount of visible light that passes through a material. It is typically expressed as a percentage, indicating how much of the incident light is transmitted through the material compared to the amount of light that initially hits it.

While both terms refer to the transmission of light through a material, luminous transmittance specifically pertains to visible light, which is the portion of the electromagnetic spectrum that can be seen by the human eye. Optical transmittance, on the other hand, can refer to the transmission of light across a broader range of wavelengths, including ultraviolet and infrared light.