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The Delta-Sigma ADC provides a striking 14-bit resolution paired with a rapid 20Msps sampling rate, setting it apart in high-speed, high-precision conversions. It's engineered to support demanding applications, where accurate signal conversion is crucial, such as wireless communications and advanced instrumentation. The ADC employs delta-sigma modulation, which results in minimal signal distortion and enhanced dynamic range. This high-performance solution aids in capturing pure signals, eliminating detrimental noise components effectively. Manufactured with TSMC's 65nm process node, this silicon-proven ADC is ready for integration into sophisticated electronic systems, offering reliability and advanced technology to address modern industry challenges in data conversion.
The 8-bit Delta-Sigma ADC, with a sampling rate of 2Ksps, is optimized for low-frequency, high-precision applications. By leveraging delta-sigma modulation, it ensures excellent noise shaping and high dynamic range, making it an ideal choice for environments where signal integrity is paramount. This ADC is versatile and designed for low power consumption, thus being suitable for portable and battery-powered devices. Its architecture allows for effective filtering of out-of-band noise, reinforcing its ability to deliver precise digital representations of analog signals. This silicon-proven product is available in SMIC's 180nm process, making it a reliable choice for applications such as environmental monitoring instruments and low-speed data logging systems where accuracy and efficiency are crucial.
The General-purpose Power-on Reset (POR) circuit ensures reliable operations by managing the startup behavior of electronic circuits. It is designed to monitor supply voltages and generate a reset signal to initialize systems into a known state upon power-up, hence ensuring system stability. Its compact design allows for integration in a wide array of products where supply voltage stability is critical, such as in embedded systems and microcontroller applications. The precise triggering voltage level prevents malfunctions and aids in secure boot sequences. Manufactured with both Magna and Samsung's high-quality processes, this POR is silicon-proven on 180nm and 130nm technologies, providing an excellent solution for developers looking to enhance system reliability and performance during power-up phases.
The General-purpose SAR ADC, featuring 8 channels, 12-bit resolution, and a sampling rate of 1Msps, is designed for versatile applications requiring precise digital conversion of analog signals. It stands out with its robust performance and low power consumption, making it ideal for battery-operated and space-constrained systems. This SAR ADC operates efficiently at a supply voltage of 3.3V, ensuring high accuracy and stability. Suitable for a wide range of industrial and commercial applications, this ADC supports a sampling rate of 1Msps, allowing it to quickly and accurately capture and process analog signals. Its multi-channel architecture ensures the capability to handle diverse input signals simultaneously, providing flexibility in various system configurations. Enhanced with silicon-proven reliability, this ADC is available in process nodes provided by Magna, utilizing both 180nm and 130nm technologies. Its proven track record in silicon adds a layer of confidence for engineers seeking performance consistency in demanding environments.
The Current-mode Buck Converter is designed for applications requiring a stable power supply with an output current of 2.5A. Featuring an input voltage range from 2.7V to 5.5V, this converter efficiently steps down voltage to an output range of 0.6V to 2.5V, with a tight accuracy of 1.5%. This robust power converter is optimized for high-performance applications, such as telecommunications and computing devices, where consistent power delivery and efficiency are critical. Its architecture supports dynamic load changes, maintaining stable operation under varying conditions. Developed on Samsung's 65nm process, this silicon-proven product ensures reliability and high efficiency, making it suitable for integration into cutting-edge electronic systems requiring reliable power conversion solutions.
The Voltage-mode Buck Converter is capable of supplying a significant output current of 3A, optimized for high-power applications requiring efficient energy conversion. With an input voltage span of 4.5V to 48V, and an adjustable output from 5V to 20V, it caters to a wide variety of power supply designs. Deserving attention for its power density and efficiency, this converter is tailored to support high-load applications like industrial systems and automotive electronics, where dependable power regulation is necessary. Delivering consistent performance under demanding conditions, this product is ideal for engineers designing robust power architecture. It operates using X-FAB's 180nm process technology, a testament to its durability and reliability. Silicon-proven, this converter ensures seamless integration and operation in high-power requirement scenarios.
This RC Oscillator spans a frequency range from 32.768KHz to 20MHz, presenting a flexible clock generation solution for a variety of electronic devices. It is ideal for applications where a precise internal clock is needed without the exacting requirements of a crystal oscillator. The oscillator's design reduces power consumption, making it suitable for low-power and portable applications. Its ability to operate efficiently under varying conditions makes it a go-to choice for diverse product designs, from microcontrollers to communication devices. Silicon-proven through Magna's 180nm and 130nm processes, as well as Samsung's 65nm, this oscillator guarantees reliability and consistent performance. It's a perfect match for designs prioritizing power economy and versatility in clock signal generation.
The Cap-less LDO offers a streamlined solution for delivering a regulated current output of up to 100mA, advantageous for applications requiring minimized space and component overhead. This device supports an input voltage range from 1.7V to 5.5V and maintains a precise output with an accuracy of 2%, even with an impressively low ground current requirement under 150uA. Due to its cap-less architecture, it eliminates the need for external capacitors, which simplifies board design while saving on material costs. The suitability for battery-powered and space-limited applications makes it ideal for use in wearable technology. This LDO is available in Magna's 180nm and 130nm process nodes, with silicon-proven reliability, ensuring high-performance power regulation in a compact format. It's a perfect fit for developers looking for reliable power solutions in miniaturized electronic devices.
The Voltage-mode Buck Converter delivers regulated voltage with an output current ranging from 800mA to 1.5A, suitable for various power-intensive applications. This converter operates with an input voltage of 2.7V to 5.5V, and can deliver an output voltage between 0.6V and 2.5V, ensuring versatility across multiple electronic architectures. The converter maintains energy efficiency with a ground current below 30uA, supporting applications where power efficiency is paramount. This capability makes it well-suited for high-performance computing systems and portable devices. Manufactured with high reliability on Magna's 180nm process, this silicon-proven converter provides the necessary power management functions needed for modern electronics, facilitating optimal operation through efficient power conversion and regulation.
The Band-Gap Reference offers precise voltage references ranging from 0.6V to 1.2V, critical for stable system performance. It features an operating current of 25uA and maintains high accuracy between 1% to 3% across its operating range of 2.2V to 5.5V, making it suitable for a variety of analog circuits. This versatile reference is engineered for integration into applications requiring stable voltage signals despite temperature variations, such as in sensor interfacing and analog data processing. Its design ensures minimal drift and robust performance across variable environmental conditions. Manufactured utilizing Magna, Samsung, and TSMC's process nodes down to 65nm, this band-gap reference is silicon-proven to offer reliability and high precision for critical electronics where voltage stability is pivotal.
The Pipelined SAR ADC with 16 channels offers a 12-bit resolution and a sampling rate of 1.5Msps, making it suitable for applications needing high-speed and high-resolution data acquisition. This advanced ADC employs a pipelined architecture, which enhances its throughput while maintaining accuracy and low latency. Engineered for precision, the ADC operates at a supply voltage of 5.0V, providing robust performance across varying conditions. The architecture is designed to efficiently handle large datasets, making it suitable for data-intensive applications. Its ability to manage multiple channels simultaneously adds to its versatility. The device is silicon-proven with Samsung, operating on a 65nm process node, which ensures reliability and integration ease for complex systems. Its superior performance characteristics make it ideal for automotive, industrial, and communications applications where high data integrity and speed are critical.
This General-purpose LDO is designed to supply a regulated output current ranging from 150mA to 450mA, maintaining high precision with an output voltage accuracy of up to 2%. It offers broad input voltage ranges from 1.7V to 5.5V, suitable for a variety of systems requiring stability and low output noise in their power supplies. Engineered for efficiency, the LDO's ground current is kept under 20uA, making it an excellent choice for battery-powered devices where power conservation is critical. The potential applications include consumer electronics, where reliability and precision in voltage regulation are necessary to ensure device performance and longevity. Developed on Magna's 180nm and 130nm process nodes, this silicon-proven LDO offers a trusted solution for numerous electronic circuit designs, catering to different operational requirements while ensuring high efficiency and low power operation.
The Delta-Sigma ADC is a high-resolution data converter offering 16-bit precision at a sampling rate of 28Ksps. Utilizing delta-sigma modulation, this ADC is crafted for applications requiring high accuracy and low power consumption over slower signal bandwidths. Its high dynamic range and noise modulation capabilities make it particularly suitable for high-fidelity audio and precision measurement applications. Operating at various process nodes, the ADC's design focuses on minimizing power usage while maximizing output accuracy. It demonstrates a high degree of linearity and precision across its conversion range, thanks to its state-of-the-art modulation techniques. The ADC's under-development status with Samsung at a 65nm process node suggests cutting-edge advancements in ADC technology, offering future-ready solutions for evolving technological needs in sectors like instrumentation and consumer electronics.
The General-purpose Power-on Reset (POR) circuit offers a reliable startup for electronic systems, effectively managing initial power states to prevent erratic behaviors and ensure stable operation. Designed to work across diverse voltage standards, it provides flexibility in integration into various system designs. Its efficiency in generating precise reset signals aids in the secure initialization and boot-up of electronic devices. The simplicity and efficiency of its architecture make it suitable for embedded applications where accurate power sequencing is critical. Produced in Samsung's 65nm process, this silicon-proven POR circuit is a reliable choice for developers seeking robust solutions for maintaining system integrity during power cycles.
The 20MHz RC Oscillator is a versatile clock source for numerous electronic applications, designed to meet the demands of systems requiring reliable timing solutions. Internally calibrated, it provides accurate frequency generation, supporting various functionalities from digital signal processing to communication protocols. Incorporating efficient power utilization features, this oscillator is well-suited for systems requiring low-power consumption without compromising on performance. Its design ensures robust operation across diverse application spaces, including portable and battery-operated devices. Manufactured using Samsung's 65nm process node, this silicon-proven oscillator guarantees dependable clock performance and ease of integration, making it an ideal choice for engineers looking to enhance device functionality with precision timing components.
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