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This frequency-regulated charge pump uses a unique voltage doubler followed by a tripler to achieve programmable output voltages. It ensures efficient voltage regulation for a wide range of applications, making it integral for designs where stable power supply is crucial.
This FM IR receiver integrates stereo PDM H-bridge headphone drivers, supporting four stereo audio channels between 2.3 and 5.7MHz. Built on a 180nm process, it addresses demands in embedded and consumer audio applications, coupling flexibility with high-quality sound output.
Designed for interfacing with a 3-axis PZT MEMS gyroscope, the STAR2010 supports a 1.8/3.3V process on a 180nm node. It caters to navigation and stabilization systems requiring precise data from gyroscopic sensors, making it ideal for advanced MEMS-based applications.
The STAR1010 is an ultra-low power audio ADC that achieves superior audio rate performance characterized by a 96dBA dynamic range while maintaining a power consumption below 200 microamps. This highly configurable ADC can operate in both over-sampled and Nyquist rate incremental modes, adapting flexibly to varying application requirements. Tested and silicon-proven in a 40-nanometer process, the STAR1010 stands out for its reliability and performance in demanding audio applications.
Specialized for audio rate applications, the STAR1011 is an ultra-low power ADC with a dynamic range of 92dBA, consuming under 110 microamps. This silicon-proven IP, fabricated in a 65nm process, offers exceptional configurability and stable performance. It is particularly useful for audio applications requiring low power usage without compromising on signal quality, ensuring effective operation in both mobile and embedded systems.
This digital temperature sensor utilizes a delta-sigma modulator for temperature tracking accuracy of less than ±2°C, offering flexible resolution in temperature monitoring applications. Engineered in a 180nm process, it is aimed at enhancing thermal management in silicon-based systems.
The STAR2040 is a CMOS cascode driver engineered for high-current GaN or SiC power FET devices. It operates with up to 20A current, featuring a typical on-resistance under 15 milliohms, ideal for high-power applications demanding robust and efficient operation.
Leveraging a delta-sigma architecture, the STAR3000 offers exceptional ADC performance with over 96dB dynamic range in a 10Hz bandwidth, consuming less than 30 microamps. Its capability to sample negative voltages makes it highly adaptable for precision sensing applications.
Using a SAR-based architecture, this self-contained sensor is optimized for rapid temperature acquisition with minimal power consumption. Situated in a 65nm process, it integrates a low-jitter ring oscillator, enhancing its suitability for low-power environments.
The STAR3001 ADC delivers superior performance with an SNR exceeding 80dB over a 50Hz bandwidth. Utilizing a 180nm process, it is optimized for precision and minimal power consumption in sensor-based systems, paving the way for enhanced accuracy in digital signals.
The STAR1000 is a versatile interface IP that integrates an advanced analog front end (AFE) coupled with a high-performance analog-to-digital converter (ADC). It serves as a complete low-power solution for microphone, audio, and IoT applications, providing a highly programmable framework capable of adjusting resolution and speed as needed. This IP is silicon proven and GDS ready, ensuring it can efficiently support diverse inputs and applications with minimal energy consumption, making it a prime choice for battery-conscious designs.
The STAR1020 is an RTL-ready noise-cancelling DSP featuring a highly efficient signal processing engine designed to deliver ultra-low-latency operation at less than 2 microseconds. Notably, it maintains minimal power consumption through patented methodologies, making it well-suited for applications that demand quick processing without excessive energy use. A demonstration platform is available, facilitating qualification with software control, showcasing its robustness in real-world conditions.
The STAR2001 is a touch panel controller tailored for mobile-sized projective-capacitive displays like those in smartphones and tablets. Utilizing a 180nm process, it delivers precise touch capabilities essential for modern portable devices, offering scalability and reliability in various mobile use-cases.
Optimized for large screens, the STAR2000 capacitive touch panel controller supports projective capacitive touch screens (PCTS), scalable to accommodate diverse panel sizes. Built on a 180nm process, it is designed for large-scale touch applications, ensuring reliable touch detection and interaction support for the latest touch-based interfaces.
The STAR2011 is poised to enhance battery life through voltage and charge monitoring. Operating on a 180nm process, this ultra-low power battery management unit (BMU) offers key insights into battery health, ideal for devices aiming to extend operational time through efficient power management.
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