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This 24-bit, 128Ksps Analog Front End (AFE) is engineered to meet the stringent demands of energy metering applications. Featuring a sigma-delta analog-to-digital converter (ADC), it ensures ultra-high precision in measuring electrical parameters. The design is implemented on the SMIC180nm technology node, providing robust performance and reliability across various conditions, making it a reliable choice for both residential and commercial energy metering solutions.
This highly accurate 24-bit Sigma Delta ADC is designed for applications involving weighing scales and sensors. Utilizing the TSMC180nm process, it provides the reliability and precision required for commercial weighing systems and industrial sensor applications. With its ability to handle differential and pseudo-differential inputs, it serves as a robust solution for ensuring measurement accuracy and stability in challenging environments.
The 32-bit, 8Ksps Sigma Delta ADC is tailored for seismic precision applications, providing a high degree of accuracy needed for energy exploration and geophysical measurements. This AFE, implemented using TSMC's 180nm technology, incorporates advanced features to minimize noise and distortion, crucial for detecting and interpreting seismic signals. It supports applications in oil and gas exploration where precise data acquisition is essential, offering outstanding performance even in the harshest field conditions.
Designed specifically for industrial process control and sensor applications, this 24-bit, 14.4Ksps Analog Front End (AFE) incorporates sigma-delta ADC technology to facilitate precise signal conversion. It provides exceptional resolution and accuracy, essential for capturing intricate details in industrial environments. Implemented on the SMIC180nm process, it is equipped to handle the rigorous demands of modern industrial automation and control systems.
Crafted for low power and high accuracy applications, this 24-bit, 19.2Ksps Analog Front End (AFE) with a sigma-delta ADC is suitable for use in industrial process control and power-sensitive sensors. Its design ensures that it can handle detailed and precise signal processing while maintaining low energy consumption, making it ideal for devices that require long battery life. The implementation on SMIC180nm process technology further enhances its functionality in various power-sensitive applications.
This specific ADC is designed for microcontroller applications that prioritize both speed and precision. At 12 bits and 2MS/s, it ensures accurate digital translation of analog signals, harnessing UMC's 55nm technology to achieve a balance of high-performance and low power consumption. This ADC is particularly advantageous for consumer electronics and IoT devices, where efficient data conversion processes are pivotal.
This 14-bit 1Gsps Pipeline ADC has been developed with a focus on next-generation wireless communication systems, specifically WiFi 7. Using TSMC's 22nm process, the ADC provides high-bandwidth data processing capabilities essential for the increasing demands of modern communication infrastructure. It ensures fast, precise signal conversion vital for maintaining high-speed connections and robust data throughput in WiFi networks, offering enhanced performance for both residential and industrial settings.
The 12-bit, 180MS/s SAR ADC is targeted towards portable electronic devices requiring swift and accurate data capture. Engineered to operate efficiently on UMC's 28nm process node, this ADC provides optimal performance for mobile applications where space and power are limited. The design embodies advanced techniques to deliver low power consumption and high-speed sampling, making it perfect for modern portable technology such as smartphones and tablets.
Optimized for WiFi 6 applications, this Dual Channel 12-bit ADC handles 640MS/s, integrating the latest advancements in ADC technology to empower rapid data processing and conversion. Implemented in TSMC's 22ULL process, it's well-suited for ultra-high-speed data communication needs, providing reliable performance and adaptability required for future-proof wireless connectivity solutions.
This Dual Channel 12-bit, 1GS/s ADC is engineered for 5G communication networks and WiFi 6 applications, demanding high throughput and rapid data exchange. Built on Samsung's 8nm technology node, this ADC supports the dynamic needs of next-gen communication infrastructure with dual channels to facilitate simultaneous data input and processing. It offers a compelling solution for telecommunications and internet service providers looking to enhance their network capabilities.
Designed for advanced radar systems, the 14-bit, 3.2Gsps ADC supports a 75MHz bandwidth suited for high-speed, high-accuracy data collection. Developed on UMC's 28nm process technology, this component is integral to radar applications requiring the swift processing of vast data volumes. Its architectural enhancements facilitate unparalleled precision and efficiency, catering chiefly to the needs of aerospace and defense sectors.
Perfectly optimized for radar applications, this 14-bit, 1.3Gsps ADC features a 40MHz bandwidth and is designed for rapid, precise data acquisition. Created using TSMC's 28nm technology, this ADC meets the demanding needs of radar signal processing, where precision and speed are paramount. It allows for accurate tracking and detection, making it invaluable for both defense and civilian radar systems that require high-resolution data input in real-time scenarios.
This ADC, featuring dual channels and a 12-bit resolution, operates at 2GS/s and is tailored for 5G and WiFi 6 connectivity, designed to manage high data rates and vast information streams. Constructed on Samsung's sophisticated 8nm process, its robust performance supports the rapid evolution of wireless communication technologies, ensuring exceptional signal conversion crucial for maintaining fast, stable, and reliable connections in modern communication frameworks.
For high-performance wireless technologies, this Dual Channel 12-bit, 4GS/s ADC provides unparalleled speed and efficiency, meeting the rigorous demands of 5G and WiFi 6 systems. With processing capabilities in Samsung's 8nm technology, this ADC delivers top-tier performance indispensable for next-generation wireless networks, handling data influx with superior accuracy essential for seamless communication and connectivity services.
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