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StarIC's 1.8 to 5.6V Charge Pump provides an efficient power conversion solution for systems requiring adjustable voltage levels. Utilizing a frequency-regulated voltage doubling and tripling mechanism, the charge pump manages voltage outputs while maintaining minimal power loss, making it ideal for battery-operated devices. Its design includes a regulation loop for precise output control, supporting various load conditions with scalable performance. This IP is particularly suited for portable electronics that demand reliable and efficient power management.
StarIC's ultra low-power microphone/audio/IoT interface is engineered to extend the battery life of portable devices, consuming minimal power even when active. This IP facilitates efficient audio data capture and processing, suitable for a range of applications such as IoT sensors and smart audio devices. Its highly programmable interface supports multiple audio rates and resolutions, making it adaptable to various design specifications. The interface integrates seamlessly into complex SoC designs, enabling robust audio processing capabilities within power-constrained environments.
The 16-bit, 96dBA Audio-rate ADC from StarIC excels in delivering superior audio quality with an impressive dynamic range of 96 dBA. This ADC offers configurable operating modes to suit different application requirements, balancing performance with power efficiency. Its flexible architecture supports both Nyquist and oversampled modes, adapting to diverse signal processing requirements. Designed for seamless integration, this ADC is well-suited for systems where high fidelity audio capture is paramount, such as portable audio devices and IoT applications involving sound detection.
The Advanced A/D Converter from StarIC is engineered to convert analog signals into digital data with exceptional precision. Designed for high performance, it supports various applications demanding accurate signal processing. The IP features a flexible configuration, allowing developers to adjust resolution and sampling rate according to system requirements. This adaptability makes it suitable for use in diverse technological environments, where precise digital representation of analog signals is crucial.
The PLL Clock Synthesizer by StarIC provides a robust solution for frequency synthesis needs in various electronic applications. Employing a phase-locked loop (PLL) design, this synthesizer allows for stable and precise clock signal generation, crucial in systems where timing accuracy is imperative. The IP's configurable nature ensures it meets the demands of different frequency ranges, enhancing its applicability across a multitude of electronic systems. Its superior clock stability and low jitter make it an ideal choice for both high-speed and low-power applications.
The STAR1011 Ultra Low Power Audio ADC is tailored for applications demanding exceptional audio quality with constrained power resources. Offering a 92 dBA dynamic range, this ADC facilitates high efficiency in audio capture and processing. Its design enables seamless integration into diverse systems where performance and footprint are critical. Operating under low-power conditions, it provides a high degree of resolution and fidelity suitable for compact and portable audio devices.
StarIC's STAR4000 facilitates voltage conversion in power-sensitive systems, supporting a wide range of output voltages through a frequency-regulated setup. Primarily aimed at devices where space and power efficiency are paramount, this IP delivers exceptional regulation with minimal power draw. Its dual voltage stages, including a voltage doubler and a tripler, ensure versatility for embedded applications reliant on stable and customizable voltage outputs. The charge pump is essential for devices where consistent power supply stability and efficiency are crucial.
The STAR1000 Ultra Low-Power Microphone/Audio/IoT Interface by StarIC is a comprehensive solution for interfacing and processing audio signals in power-sensitive applications. It integrates an analog front end (AFE) with high-performance ADC capabilities, facilitating low-power operation across diverse audio inputs. This IP empowers device designers to optimize for multiple functionalities, enabling rapid deployment in audio-focused and IoT environments that require efficient energy usage. Its flexibility ensures that a single IP design can be applied across a range of audio application scenarios, enhancing versatility and cost-effectiveness in production setups.
Engineered for environments where high audio fidelity is crucial, the STAR1010 Ultra-Low Power Audio ADC offers a remarkable dynamic range of 96dBA at low power usage. This ADC supports various audio signal processing tasks through its configurable architecture, allowing for both over-sampled and Nyquist rate operation based on system needs. With silicon validation and a focus on efficiency, it proves highly suitable for portable sound recording applications and audio sensors that must function efficiently within power constraints.
StarIC's STAR2020 Digital Temperature Sensor employs a Delta-Sigma modulator to deliver flexible digital output resolutions with precision. Mastering temperature sensing accuracy within ±2 degrees Celsius, this IP suits various environments, from consumer electronics to industrial applications, where reliable temperature monitoring is crucial. By being built on a 180nm process, it achieves efficient performance while maintaining low power consumptions, enhancing operational lifetime in enduring applications.
The STAR2010 from StarIC is a specialized interface for PZT 3-axis MEMS gyroscopes, designed to leverage a 180nm process for optimal performance. It accommodates MEMS gyro applications requiring precise motion sensing and stability. This interface addresses the need for reliable signal processing in gyroscopic motion detection, supporting enhanced navigation functions across electronics focusing on orientation and movement. Its robust design is crucial for integrative systems requiring multi-axis detection and processing of physical orientation changes.
Designed for audio systems, the STAR2030 combines an FM IR Receiver with a stereo PDM H-bridge driver suitable for high-quality audio output across 2.3 to 5.7 MHz. Built on a 180nm process, it facilitates multiple audio channels providing robust audio capabilities necessary for modern sound systems. It is particularly useful in applications requiring refined audio reproduction and signal clarity, refined through its efficient architecture tailored for clarity and performance in digital audio processes.
The STAR2040 from StarIC is a high voltage driver optimized for operation with GaN power semiconductor devices. Built on a 180nm process, it supports high current delivery with a cascode configuration that ensures efficient and reliable switching. Its design accommodates applications demanding high power transitions and low on-resistance, pivotal for driving GaN FETs in power-intensive scenarios. The device addresses the needs of systems requiring robust power management and enhanced operational stability.
The STAR3000 by StarIC delivers comprehensive ADC performance in sensor applications. Featuring a delta-sigma architecture, it achieves over 96dB over a 10Hz bandwidth while consuming minimal current. Its capability to sample negative voltages makes it versatile in diverse sensor environments, ensuring precise digitalization of analog signals. As a reliable option for high-accuracy data acquisition, STAR3000 fits perfectly within systems demanding correct low-frequency sensor data interpretation with negligible power overhead.
Utilizing a SAR-based architecture, StarIC's STAR2021 Low-Voltage Digital Temperature Sensor provides swift temperature acquisition with minimized power demands. Integrated with a low-jitter ring oscillator, it ensures rapid and precise sensing capabilities ideal for dynamic environments. This sensor is produced using a 65nm process, optimal for ensuring low energy consumption without sacrificing measurement accuracy, making it suitable for handheld or portable devices where efficient power usage is imperative.
The STAR1020 Ultra-Low Power Hybrid Noise Cancelling DSP functions as an efficient signal processing engine designed to handle ambient noise reduction with outstanding minimal power consumption. Ideal for audio devices that require fast noise suppression with minimal latency, its design ensures superior sound clarity. The embedded patented noise cancellation technology enables high adaptability across various audio scenarios, making it a versatile choice for audio equipment aimed at maximizing user audio experience while maintaining energy efficiency.
Engineered for sensor systems, the STAR3001 by StarIC offers top-tier ADC performance using a delta-sigma architecture to deliver an impressive >80dB signal-to-noise ratio over a 50Hz bandwidth. This power-efficient IP is perfectly suited for processing signal data from sensors, ensuring highly accurate and reliable data conversion. Its use of a 180nm process highlights its focus on power economy and superior integration within embedded systems demanding robust signal conversion and minimal energy consumption.
StarIC's STAR2001 is optimized for mobile screen applications, delivering high performance for smartphone and tablet capacitive touch interfaces. Designed with scalability and precision in mind, this touch controller excels in interpreting touch signals for small to medium display screens. Its architecture on an 180nm process ensures it efficiently handles touch input for personal devices, providing swift and accurate user interactions. This IP is an excellent match for industries focusing on enhancing user interface technology within compact devices.
The STAR2000 Capacitive Touch Panel Controller from StarIC is tailored specifically for large screen applications, leveraging its high scalability to accommodate diverse capacitive touch screen sizes. Built on a 180nm process, this controller effectively manages touch input, ensuring precise and responsive interaction. The design is particularly suited to applications involving large interactive displays in both consumer and industrial settings, offering versatility and reliability. Its ability to scale according to panel size makes it an ideal solution for next-generation touch technology implementations.
StarIC's ultra-low power hybrid noise cancelling DSP integrates a signal processing engine designed to reduce ambient noise efficiently while consuming minimal power. This DSP is engineered to deliver ultra-low latency processing, making it suitable for applications requiring fast and dynamic noise cancellation, such as headphones and hearing aids. The DSP's patented noise cancelling technique allows for effective background sound reduction, ensuring clear audio delivery in varied environments. Its design supports programmability and adaptability, catering to a wide range of custom audio processing needs.
The STAR2011 is engineered to provide detailed battery monitoring through a gas gauge system, designed particularly for low-power applications. It offers monitoring of voltage and charge, using a 180nm process to enhance its efficiency. This IP is vital for applications requiring accurate battery status reporting and management, ensuring extended device operation and reliability. Its integration within battery-dependent devices supports efficient power usage and life cycle management.
The ultra-low power 16-bit audio-rate ADC by StarIC provides exceptional performance with low power consumption. Designed for audio applications, it offers a high dynamic range and supports customizable sampling features to optimize power use. This ADC is adaptable to various implementation needs, providing high resolution and low latency for audio signal processing tasks. Its architecture is optimized for minimal power usage without compromising on audio fidelity, making it ideal for battery-powered audio applications.
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