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This ADC features a 12-bit resolution and a sampling rate up to 1 MSPS, making it suitable for precise analog-to-digital conversions in various applications. It is designed to deliver high-performance data acquisition while maintaining power efficiency. This single-channel converter supports enhanced signal processing capabilities, catering to applications that demand reliable and accurate digital representation of analog signals. The ADC integrates seamlessly into custom IC designs and can be utilized in sectors such as industrial automation and medical devices.
Designed for intracardiac pacemakers, this acquisition chain employs nanopower technology to deliver efficient unipolar data capture for ECG and EGM applications. It reduces power consumption significantly while providing reliable and precise measurements, thus extending the device's operational life. The innovation lies in its ability to deliver high-quality data from cardiac signals with minimal energy usage, making it suitable for low-power medical devices where size and battery efficiency are critical. The integration of this IP supports advanced cardiology applications in medical technology.
This TRNG leverages a self-timed ring oscillator to deliver enhanced hardware security features in custom ASIC designs. Its design utilizes standard cells, negating the need for specific cells or memories, which contributes to significant improvements in performance relative to conventional SRAM-based solutions. The high bit-rate generation, over 100 times that of standard methods, underscores its effectiveness in producing genuinely unpredictable random numbers crucial for cryptographic applications. Its architecture is optimized for secure IoT and medical applications.
Utilizing a self-timed ring oscillator, this PUF is engineered to provide robust security for custom ASIC solutions. It serves as a unique identifier, offering exceptional security and authentication by exploiting inherent process variations. The IP requires only standard cells, enhancing scalability and integration across various systems. Its design supports applications in IoT devices and healthcare, where secure communication is essential. The adaptability of this IP allows for seamless implementation into ASICs and embedded systems, safeguarding against cloning and other security threats.
This IP provides an ultra-low power analog front-end (AFE) circuit tailored for both wearable and implantable medical devices. It is engineered to perform clinical-grade electrocardiogram (ECG) waveform measurement and QRS detection with significant accuracy. The high-resolution acquisition chain ensures optimal signal fidelity which is crucial for medical diagnostics and monitoring applications. Its design is centered around enhancing data precision while minimizing power consumption, making it ideal for applications where device battery life is critical.
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