Display Driver IC Market Technological Advancements, Evolving Industry Trends and Insights
Display drivers are utilized in an extensive variety of applications from desktop monitors, to large screen TVs, smartphones, tablets, laptops, and automotive displays. A display driver IC performance is an interface between a digital system or microprocessor and the display panels (i.e., LCD or OLED). Display drivers characteristically receive commands and information and produce signals with appropriate... moreDisplay Driver IC Market Technological Advancements, Evolving Industry Trends and Insights
Display drivers are utilized in an extensive variety of applications from desktop monitors, to large screen TVs, smartphones, tablets, laptops, and automotive displays. A display driver IC performance is an interface between a digital system or microprocessor and the display panels (i.e., LCD or OLED). Display drivers characteristically receive commands and information and produce signals with appropriate current, voltage, and timing to brand the display panel to show the wanted texts or imageries.
Disparities in display panel making and packing can reason the display panels to diverge from their target specifications, compromising uniform display excellence. NVM IPs can be utilized in screen driver ICs to stock parameters for contrast levels, brightness levels, color correction tables, and more to regulate differences in chips.
Moreover, by utilizing NVM IPs in display drivers, chip creators can precisely the nonuniformity in display panels. For instance, smartphones’ display driver gamma curves can be separately tweaked to recompense for differences in display quality.
Gamma (Gamma correction is a method utilized to compensate for the non-linear display features of a device) adjustment guarantees that all phones coming off the final production line have alike levels of screen color contrast and brightness, removing the requirement for added software configurations. Given the advantage, chip designers can use NVM IPs to efficiently decrease manufacturing prices and surge production yield.
DDIC Package Form
Since Samsung first launched its curved TV in 2013, supple display technology has swiftly progressed. Broadly speaking, there are 2 kinds of displays, known as flexible displays and rigid displays. Rigid screens utilize rigid glass as the substrate, while flexible displays utilize a plastic (polyimide, or PI, organic polymer) as the substrate, with durable, bendable, and foldable properties. Some high-end phones utilize this material when the ends of the display are bent and the texture is improved.
Hence, the rising need for electronic devices including televisions, personal computers, smartphones, and others; growing acceptance of organic light-emitting diode (OLED) panels in display technology are the major factors propelling the display driver IC market.
