DLPA059H January 2015 – April 2024 DLP160AP , DLP160CP , DLP2000 , DLP2010 , DLP230NP , DLP3010 , DLP3310 , DLP470NE , DLP470TE , DLP4710 , DLP471NE , DLP471TE , DLP471TP , DLP472NE , DLP472TE , DLP480RE , DLP550HE , DLP550JE , DLP650LE , DLP650NE , DLP650TE , DLP651LE , DLP651NE , DLP660TE , DLP670RE , DLP780NE , DLP780TE , DLP781NE , DLP781TE , DLP800RE , DLP801RE , DLP801XE , DLPA1000 , DLPA2000 , DLPA2005 , DLPA3000 , DLPA3005 , DLPC2607 , DLPC3420 , DLPC3421 , DLPC3430 , DLPC3433 , DLPC3435 , DLPC3438 , DLPC3439 , DLPC6401 , DLPC6540
The display system starts with a video input signal and results in a stunning projected image. A display system needs three main components to operate: DMD, DLP display controller, and power management integrated circuit (PMIC). Figure 4-1 illustrates the typical block diagram of an LED DLP display system. You can also click here for a video that covers the block diagram of a DLP display system in detail.
The display system requires two primary connections: power and data. Power must be supplied to the DLP PMIC. Digital video data (including 24-bit RGB, DSI, or Vx1) must be supplied to the DLP display controller chip. A media processor, which accepts external sources like HDMI and processes streamed online content, sends digital video data out to the DLP display controller. Alternatively, a product's application processor, such as in a smartphone or tablet, can also send digital video data to the DLP display controller.