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Advanced Silicon's Sensing Integrated Circuits (ICs) provide versatile solutions for various sensor system needs, ranging from high-performance photodiode detectors to low-noise photon detection pixel arrays. These ICs are designed to significantly enhance system integration while reducing the solution size, power consumption, and cost. By incorporating state-of-the-art technology and providing unmatched design support, these ICs offer both reliability and performance. A key feature of these Sensing ICs is their ability to maintain superior performance metrics such as low noise figures, high linearity of ADCs, and excellent resolution, particularly suited for sophisticated imaging systems such as Digital X-ray Flat Panel Detectors, CT scanners, and even biometric fingerprint detectors. This adaptability makes them a preferred choice for complex input systems requiring high integration and functionality. The multichannel charge sensing ICs come with embedded per-channel analog-to-digital conversion, which ensures outstanding image scanning efficiency. The capacitive sensing models too bring their own strengths, excelling in designing demanding touch screen interfaces. They showcase high sensitivity, superior signal interference rejection, and fast response, essential for both large-screen formats and small-sized rugged touch applications.
Advanced Silicon's Specialty Microcontrollers are architecturally innovative RISC-V based solutions tailored for high-performance applications like image processing. Encompassing cutting-edge co-processing units, these microcontrollers redefine potential in embedded system functionalities. The controllers integrate both performance and practicality, enabling sophisticated algorithms crucial for modern image processing tasks. They come embedded with touch firmware featuring machine learning algorithms that handle user input recognition, enhancing interactive user interfaces. This positions Advanced Silicon at the forefront of the industry, propelling user-friendly and intuitive technology solutions. Their SOC Touch Controllers are structured on a 32-bit RISC architecture, featuring integrated capacitive AFE interfaces, power management units, and robust communication interfaces, suited for smaller touch screens ranging between 10 to 27 inches. For larger screens, up to 84 inches, their multi-chip solutions combine advanced 32-bit DSP architecture with powerful capacitive sensing AFEs, offering comprehensive performance for interactive applications.
These High-Voltage Integrated Circuits (ICs) from Advanced Silicon are crafted to manage high-pin counts and multi-channel output drivers specifically for thin film technologies. Designed to provide a broad range of voltage drive capabilities, these ICs can handle detailed digital-to-analog conversion with various DAC resolutions and multiple channels. This product range encompasses foundational two-level drivers as well as precise DACs, which possess a remarkable capability in turning on or off thin film switching devices by driving the gate electrode in technologies like amorphous Silicon, Low-Temperature Poly-Silicon, and IGZO. Additionally, these ICs are suited for accurately driving analog components in MEMs devices and capacitive loads like those of ITO. Especially popular in flat panel displays like LCD, OLED, and even large formats like digital flat panel X-ray detectors, these line drivers hold up to 512 output channels and utilize a COF package. The DAC drivers, on the other hand, offer DACs with resolution capabilities reaching up to 1024 output voltage levels, making them apt for precise pixel capacitive loads.
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