TA1284FN UHF / VHF TUNER IC (Low Phase Noise Oscillator)
The TA1317ANG is a specialized integrated circuit used primarily in the deflection systems of cathode-ray tube (CRT) displays, particularly in large and wide-format screens. The EW correction circuit is responsible for adjusting the horizontal width of the image, ensuring that it fits properly within the boundaries of the display. This is crucial for maintaining image quality and preventing distortion at the edges of the screen.
The vertical distortion correction circuit addresses any vertical image anomalies that may occur during the display process. This circuit helps to ensure that the image remains proportional and that vertical lines appear straight, which is essential for accurate image representation.
Additionally, the dynamic focus correction circuit enhances the sharpness of the displayed image by adjusting the focus dynamically based on the content being displayed. This feature is particularly beneficial for large screens where maintaining image clarity across the entire display area can be challenging.
The TA1317ANG's ability to interface with an I2C bus line allows for flexible control of its various functions. This means that it can be integrated into a broader system where it can receive commands from a microcontroller or other digital devices, facilitating real-time adjustments and configurations. The I2C communication protocol is widely used in electronic systems due to its simplicity and efficiency, making the TA1317ANG suitable for modern display applications.
Overall, the TA1317ANG is an essential component for enhancing the performance of CRT displays, providing critical corrections for image quality, and allowing for easy integration into complex electronic systems.TA1317ANG is a deflection processor IC for a large and wide picture tube. TA1317ANG incorporates an EW, a vertical distortion correction circuit and a dynamic focus correction circuit. It CAN 2 control various functions via I C BUS line. By Toshiba Semiconductor 🔗 External reference
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