AMVA, or Advanced-MVA, is a display panel technology developed by AU Optronics (AUO), a Taiwanese manufacturer of displays and screens. It is designed to address the shortcomings of earlier VA and MVA products, which had issues like color washout and distortion.
Unlike TN and IPS systems, MVA technology features liquid crystal molecules that are vertically aligned when no voltage is applied, resulting in a black background. When voltage is applied, the electric field tilts the molecules parallel to the substrate, allowing high light transmission from the source. The resulting black produced in this state is of excellent quality and can be viewed from all angles.
AMVA panels take this technology to the next level by using more areas than conventional MVA panels. This design translates to an extremely high contrast ratio that is comfortable for the user to view and easy on the eyes. Additionally, AMVA panels have an exceptionally deep black color depth, and consume less power due to the backlight module and high cell transmission.
FAQs
What does AMVA stand for?
AMVA stands for Advanced-MVA, a panel technology developed by AU Optronics (AUO).
What are the advantages of AMVA technology?
AMVA panels have an extremely high contrast ratio that is more comfortable to view and easier on the eyes. Additionally, they have an exceptionally deep black color depth and consume less power due to the backlight module and high cell transmission.
How does AMVA technology compare to TN and IPS systems?
MVA technology is different from TN and IPS systems. In the VA system, liquid crystal molecules are aligned perpendicular to the substrates when no voltage is applied, resulting in a black background. When voltage is applied, the electric field tilts the molecules parallel to the substrate, allowing high light transmission from the source.
Conclusion
AMVA is an advanced panel technology designed to address the shortcomings of earlier VA and MVA products. It offers an extremely high contrast ratio, deep black color depth, and consumes less power, making it an excellent choice for a wide range of display applications.
