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The RC Oscillator offered covers a wide frequency range from 32.768 KHz to 20 MHz, making it highly versatile for use in a variety of timing and frequency applications. This oscillator provides superior frequency stability, essential for applications where precision timing control is required. With its implementation on Magna's 130nm and 180nm processes, this oscillator maintains high performance and accurate timing controls that can help dictate the pacing of various digital processes. Its use in real-time clock circuits, microcontroller timing, and other digital systems secures it as a fundamental component of modern electronic designs. It achieves high reliability and optimal cost efficiency, underscoring its applicability in consumer electronics, automotive systems, and electronic devices where consistent timekeeping is crucial. The RC oscillator is a cornerstone in maintaining system coherence across multiple platforms.
Engineered to address high-bandwidth and precision-driven environments, the 14-bit Delta-sigma ADC achieves a remarkable 20 million samples per second (Msps). It's ideally suited for applications requiring high-frequency sampling and superior precision such as medical imaging devices and radar systems. The ADC employs delta-sigma technology with advanced noise shaping for enhanced resolution and reduced quantization error, ensuring that even the most subtle nuances in signal variations are captured and accurately converted to digital form. Leveraging the TSMC 65nm process, it embodies robust performance characteristics and silicon-proven efficiency. The ADC stands out for delivering exceptional conversion accuracy and speed, highlighting its value in modern high-performance signal processing applications.
This Delta-sigma ADC offers 8-bit resolution at a sampling rate of 2 kilo-samples per second (Ksps), specifically crafted to deliver accuracy in applications like instrumentation and control systems. The converter benefits from the delta-sigma architecture's ability to filter out noise across the sampling band, allowing for precise and accurate digital representation. It uses an advanced digital signal processing methodology to ensure accurate conversion of low-frequency analog inputs into high-resolution digital signals, addressing the needs of systems that must maintain data integrity across slow-changing signals. Manufactured using the 180nm process technology from SMIC foundry, this analog-digital conversion framework ensures silicon-proven capability in supporting industry-standard performance targets, enhancing its applicability in a host of precision-driven electronic systems.
This Voltage-mode Buck Converter offers impressive efficiency across load currents ranging from 800mA to 1.5A, making it an excellent solution for voltage regulation tasks in applications like consumer electronics and telecom equipment. It functions effectively within an input voltage range of 2.7V to 5.5V, providing an output voltage from 0.6V to 2.5V, with grounding currents under 30μA. The converter embodies high precision with a 2% accuracy in voltage regulation, ensuring smooth and efficient power conversion even in dynamic load conditions. Its voltage-mode control architecture is designed for applications that demand reliable power delivery and efficiency. Fabricated on Magna's 130nm and 180nm process nodes, it is well-suited for designs requiring robust power regulation, validated through silicon-proven reliability for enhanced performance in modern electronic devices.
The General-purpose SAR ADC is an 8-channel, 12-bit ADC designed to operate at sampling rates up to 1 million samples per second (Msps). This ADC is particularly adept at handling a range of analog signals with precision, making it ideal for various general-purpose applications. Operating with a bandgap reference circuit, it ensures optimal conversion accuracy and stability. The ADC is voltage-operated at 3.3V, which contributes to its efficient power usage, making it well-suited for power-sensitive applications. Developed using the well-proven SAR architecture, it stands out for its high-speed operation without compromising the linear performance of the device. Fabricated on process nodes of 130nm and 180nm with Magna foundry, it demonstrates impressive silicon-proven stability and reliability, ensuring it meets rigorous demands of real-world applications.
The General-purpose Power-on Reset (POR) circuit is a reliable solution designed to ensure a system is correctly reset upon power-up, operating efficiently across various voltage environments. Key in safeguarding proper system startup, it functions over broad supply voltage ranges and can be integrated seamlessly across a wide array of applications. The POR circuit is crucial in preventing circuit anomalies during the power-up phase, protecting components by ensuring that they only operate once power levels are stable. This characteristic makes it indispensable for microprocessors, FPGAs, and other electronic devices requiring controlled initialization. With integration across Magna's 130nm and 180nm processes, the POR solution is proven for stability and reliability in silicon, providing robust performance in any application requiring effective power-on signalling and reset control.
The Pipelined SAR ADC features 16 channels with a 12-bit resolution, operating at sampling rates of up to 1.5 million samples per second (Msps). Combining the benefits of pipelined and SAR ADC architectures, this component excels in achieving high speed and precision in data conversion processes. Designed to take advantage of a higher operational voltage of 5.0V, this ADC is robust in handling diverse and demanding tasks, catering to applications that require swift and accurate data conversion. The integration of the SAR technology within a pipelined framework allows for enhanced data throughput without sacrificing accuracy. With its implementation over 65nm process nodes with Samsung foundry, the ADC brings proven reliability and efficiency to sophisticated electronic systems, making it a favored choice for systems prioritizing speed and bandwidth.
Optimized for precision voltage reference, the Band-Gap Reference delivers stable voltage outputs ranging from 0.6V to 1.2V, supporting a current operation of 25μA within a voltage range of 2.2V to 5.5V. It ensures high precision with an accuracy between 1% to 3%, depending on operational conditions, making it highly effective for calibration and biasing circuits in diverse electronic applications. The band-gap reference is critical in systems that demand a stable, low-temperature-coefficient voltage reference such as analog-to-digital converters and power management circuits. Its resilience across different temperatures and voltage supplies ensures reliable performance in varying environmental conditions. Implemented across Magna and Samsung foundries via 65nm, 130nm, and 180nm process technologies, the reference circuit is silicon-proven, demonstrating consistent and reliable operation in delivering precise voltage references for demanding electronic systems.
The Current-mode Buck Converter is engineered to support a load current of up to 2.5A, ideal for power-intensive applications such as computer peripherals and industrial electronics. It effectively manages input voltage ranges between 2.7V to 5.5V, with an adjustable output voltage stretching from 0.6V to 2.5V, and operates with grounding currents under 30μA. It features current-mode control, providing superior speed responses and improved stability in the face of input voltage or output load changes. This converter maintains a precise voltage regulation with an accuracy of 1.5%, enhancing efficiency and performance in complex operating environments. The converter is silicon-proven over Samsung's 65nm technology, attesting to its high performance and reliability. Its robustness and efficiency make it a versatile choice for systems demanding meticulous power management solutions.
The Delta-sigma ADC is a cutting-edge 16-bit analog-to-digital converter optimizing data conversion with a sampling rate of 28 kilo-samples per second (Ksps). This ADC is designed to provide outstanding precision, making it suitable for applications requiring high signal integrity and dynamic range such as audio systems and high-definition sensors. The device employs the delta-sigma modulation approach, which excels at minimizing quantization noise and improving signal clarity. This modulator leverages advanced noise-shaping techniques, allowing for high-resolution conversion that's essential for clarity and accuracy in complex signal processing tasks. Although still under development with Samsung foundry on a modern 65nm process node, the ADC promises high performance and optimal power efficiency. Its potential to facilitate low-distortion signal representation makes it an attractive choice for high-fidelity audio equipment and precision measurement systems.
The 20MHz RC Oscillator is designed for high-frequency applications, offering reliable clock signals necessary for synchronizing electronic systems. Providing stability in its frequency output, it is ideal for use in digital signal processing where precise timing signals are crucial to operation. Fabricated on Samsung's 65nm process technology, this oscillator ensures high-frequency integrity and low jitter, crucial for maintaining the performance metrics of advanced electronic circuits. Its compact size and efficiency make it an excellent fit for use in high-density circuit boards where space is a prime concern. The oscillator has become fundamental to devices requiring stable timing reference, proving to be especially valuable in telecommunication equipment and high-speed shuttle communications, among other precision-driven applications.
The Cap-less Low Dropout Regulator (LDO) is designed to offer efficient power management for low-current applications, with a load current capacity of 100mA. Its cap-less design negates the need for an external capacitor, simplifying device integration and saving on PCB space, making it highly suitable for compact and efficient designs. Operating with an input voltage range from 1.7V to 5.5V and delivering an output voltage between 0.8V and 4V, the regulator exhibits a grounding current of less than 150μA. It's built to present a voltage regulation precision of 2%, ensuring stable power supply across variable loads. The Cap-less LDO's silicon-proven design on Magna's 130nm and 180nm nodes underlines its reliability and adaptability in devices where board real estate and component count are primary concerns.
Designed for high-power delivery, the Voltage-mode Buck Converter is capable of handling currents up to 3A, tailored for use in applications such as power supply modules and automotive electronics. The device operates over an extensive input voltage range of 4.5V to 48V, delivering an output voltage between 5V and 20V, ensuring broad utility across varied voltage requirements. This voltage-mode buck converter maintains high efficiency and power density, benefiting from a tightly controlled regulation which assures power stability and performance in high-load scenarios. It is particularly suited for applications where high input voltages need efficient down-conversion. The converter is developed using X-FAB's 180nm process node, reflecting its robust design and silicon-proven efficacy, equipped to tackle the demands of high-voltage applications while ensuring energy efficiency and performance.
This General-purpose Low Dropout Regulator (LDO) is engineered to offer a variable load current output of 150mA, 300mA, or 450mA. It is designed for applications demanding efficient power regulation with low quiescent current requirements, which is crucial in portable and battery-operated devices. The LDO supports an input voltage range from 1.7V to 5.5V and provides a regulated output between 0.8V and 4V with a grounding current of less than 20μA, enabling high-efficiency operation across a wide load spectrum. It integrates high precision, maintaining an accuracy of 2% in voltage regulation, making it ideal for sensitive applications that require stable power. Manufactured using Magna's 130nm and 180nm process technologies, it ensures consistent performance and reliability. Its proven silicon capability further solidifies its suitability for diverse electronics needing robust voltage regulation.
TechwidU's General-purpose Power-on Reset circuits are essential components ensuring system integrity upon startup. They are essential in providing a controlled power-up sequence across a range of supply voltages, protecting sensitive components from unintentional operation due to unstable inputs. These circuits guarantee that systems only begin functioning once an adequate and stable power supply is confirmed, making them indispensable in microcontroller and FPGA designs where precise startup sequences are critical. They promote reliability and longevity by safeguarding devices from power transients during initial power application. Constructed with Samsung's 65nm process, these POR circuits demonstrate formidable silicon-proven reliability and are optimized for multiple electronic systems, emphasizing stability and accurate power-on control across diverse technological landscapes.
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