Hx8872c Datasheet ((top)) -
Reduces motion blur in fast-moving video sequences.
Instrument clusters and navigation screens.
Note: Due to the complexity of the 64-pin package, specialized PCB layout and design techniques are necessary for proper signal integrity. 5. Applications of the HX8872-C
The versatility of the Himax HX8872-C makes it suitable for: hx8872c datasheet
pulses to establish the horizontal blanking and vertical blanking parameters. Reference Design Checklist & Layout Guidelines
The HX8872-C is designed for high-efficiency image processing. Its architecture includes built-in shift registers and level shifters that translate low-voltage control signals into the higher voltages required to toggle the transistors on an LCD substrate. It supports various panel types, including amorphous silicon, oxide, and LTPS LCDs, as well as some OLED configurations. Common Applications
Clock pulse vertical output that shifts the gate driver rows sequentially. Reduces motion blur in fast-moving video sequences
The device operates efficiently with a supply voltage range of 2.0V to 5.5V.
To prevent damage in demanding applications, the HX8872C features internal protection that automatically shuts down the chip if the operating temperature exceeds 150°C. 4. Package Information
Utilizes SPI (Serial Peripheral Interface) for communication with the MCU. Package Type: Standard TQFP-64 (64-pin Quad Flat Package). 2. Advanced Features Its architecture includes built-in shift registers and level
Low 2.0 mW power draws preserve battery lifespans without sacrificing panel refresh speeds.
These carry the color information for each pixel. Control Signals: DCLK (Data Clock): Synchronizes the data transfer.
The is a specialized integrated circuit designed to process image data and drive TFT-LCD panels. It functions as a critical component between the system microprocessor and the physical display panel, ensuring that signals are correctly translated into visual output.
The is an IC designed specifically as a TFT-LCD source driver or controller. It handles the signals needed to control the liquid crystal display panel's pixels. According to industry data, it is commonly utilized in: Industrial Displays: Due to its robust nature. Consumer Electronics: Such as older LCD TVs. LCD Panels: Small to medium-sized TFT screens.