All IPs > Analog & Mixed Signal > Oscillator
In the world of semiconductor IPs, oscillators hold a pivotal role by providing a precise timing reference needed in virtually every electronic device. These components are designed to generate periodic signals, crucial for synchronizing processes in everything from consumer electronics to complex communication systems. Oscillators often operate by producing a fixed frequency signal, which serves as a clock that regulates the operation of digital circuits. In this category, Silicon Hub presents a diverse range of oscillator semiconductor IPs that cater to varied applications requiring reliable timing solutions.
Oscillator semiconductor IPs come in numerous forms, including but not limited to crystal oscillators, phase-locked loops (PLLs), and silicon oscillators. Crystal oscillators are known for their high precision and stability, commonly used in applications where timekeeping is critical, such as in watches and networking equipment. PLLs, on the other hand, are versatile components used in frequency synthesis and synchronization in telecommunication systems, offering the ability to generate multiple clock frequencies accurately.
The demand for efficient mixed signal oscillators is high due to the convergence of analog and digital technologies in modern electronics. Mixed signal oscillators provide the benefits of both precise analog frequency control and flexible digital configuration, making them ideal for integrated circuits in smartphones, wireless devices, and automotive systems. These IPs not only enhance performance but also improve power efficiency and reduce overall system cost, which is crucial for competitive product development.
At Silicon Hub, our catalog of oscillator semiconductor IPs includes customizable solutions to meet specific industry needs. Whether you are designing a simple consumer electronic device or a complex industrial application, our oscillator IPs offer the performance and reliability required for success. Explore our offerings today to find the perfect match for your project's requirements and experience seamless integration into your designs through our robust selection of oscillator technologies.
Silicon Creations' Free Running Oscillators provide dependable timing solutions for a range of applications such as watchdog timers and core clock generators in low-power systems. These oscillators, crafted with compactness and efficiency in mind, support a gamut of processes from 65nm to the latest 3nm technologies. These oscillators excel in low power consumption, often requiring less than 30µW during operation. Their robust design ensures they deliver high precision over a temperature range from -40°C to 125°C with supply voltage variabilities factored in. The simplicity in design negates the need for external components, promoting easier integration and reduced overall system complexity. Precise tuning capabilities allow for accuracy levels up to ±1.5% after process trimming, ensuring outstanding performance in volatile environmental conditions. This level of reliability makes them ideal for integration into various consumer electronics, automotive controls, and other precision-demanding applications where space and power constraints are critical.
Oscillators are the heartbeat of electronic systems, providing the essential clock signals that drive synchronous operations within devices. Advinno's oscillators are designed for high stability and low phase noise, catering to applications that demand precise timing control. These oscillators can be found across a broad spectrum of technology sectors, including communication infrastructure, computing, and multimedia. The robust design ensures reliable performance under varying environmental conditions, making them ideal for use in critical applications where timing precision is paramount. Advinno offers oscillators that are adaptable to different process technologies, making them suitable for both standard and custom electronic designs needing an assured clock source.
EnSilica's eSi-Analog IP encompasses a robust selection of analog solutions equipped for seamless SoC and ASIC integration. These solutions are silicon-proven across multiple process nodes, ensuring reliability and cost efficiency in challenging markets. The IP includes fundamental blocks like oscillators, SMPS, LDOs, temperature sensors, PLLs, and ultra low-power radio components. Each block can be adapted to meet bespoke client specifications, enhancing system performance while optimizing power consumption and achieving high resolution.
CoreVCO is a versatile Voltage-Controlled Oscillator designed for precision in frequency modulation. Its capability to produce a wide range of frequencies with excellent phase noise characteristics makes it a preferred choice for high-frequency telecommunications and broadcast applications. The design of CoreVCO emphasizes stability and responsiveness, ensuring rapid adaptation to changes in control voltage. This attribute is crucial for maintaining signal integrity across varying operational conditions, making CoreVCO reliable in both laboratory and field environments. With what CoreVCO offers, electronic systems achieve high efficiency and adaptability, aligning with modern digital communication standards. The oscillator is architected to seamlessly integrate into existing systems, providing scalable solutions for developers seeking robust frequency control modules.
Analog Bits' Clocking IP solutions provide highly customizable, low-power, wide-range integer and fractional PLLs. Designed to offer ultra-low jitter performance, these solutions are ideal for high-volume production and are customizable to meet specific customer requirements. Silicon-proven technologies underpin their reliability and are available across leading foundries.
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.
The agileRCOSC is an RC Oscillator based on a traditional architecture which allows for the frequency to be trimmed to remove the effects of process variation. This can also be configured as a Free Running Clock (FRC) where a high accuracy clock is not required. Agile Analog designs are based on tried and tested architectures to ensure reliability and functionality. Our automated design methodology is programmatic, systematic and repeatable leading to analog IP that is more verifiable, more robust and more reliable. Our methodology also allows us to quickly re-target our IP to different process options. Our highly configurable and multi-node analog IP products are developed to meet the customer’s exact requirements. These digitally-wrapped and verified solutions can be seamlessly integrated into any SoC, significantly reducing complexity, time and costs.
Moonstone Laser Sources are at the core of Lightelligence's photonic technologies, providing reliable and efficient laser solutions for optical computing systems. These laser sources are critical components in driving the performance of photonic devices, delivering consistent and precise optical signals essential for high-speed data communication and processing tasks inherent to AI and modern computing systems. Designed with a focus on stability and efficiency, Moonstone lasers operate at wavelengths ideally suited for photonic integration, ensuring minimal loss and maximum signal integrity. This allows for more robust interactions between components in a photonic system, leading to tangible improvements in computational throughput and system responsiveness. The high-performance nature of Moonstone lasers makes them an invaluable asset in applications where precision and reliability are paramount. Their integration into Lightelligence's broader product lineup showcases a commitment to advancing optical technologies, setting new benchmarks for what photonics can achieve in the context of computing and data processing environments.
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 pPOR01 is a power-on reset solution developed by Perceptia, designed to support stable system initialization processes. This component is essential for digital systems requiring robust reset mechanisms that can withstand the challenges of power transitions and fluctuating states. Integrating the pPOR01 into a variety of semiconductors enhances system reliability by ensuring devices return to a defined state upon start-up or after power interruptions. This feature is crucial for maintaining the integrity and performance of advanced digital circuits. Constructed with a focus on efficiency, the pPOR01 accommodates diverse system requirements, making it an ideal choice for enhancing the dependability of complex semiconductor designs. Its functionality supports broad application scenarios, providing a reliable reset strategy pivotal for modern digital architectures.
The 15 MHz Clock Oscillator from VivEng serves as a critical timing component in various electronic circuits, providing precise clock signals essential for successful digital communication and processing. It features rapid start-up and a digital control function that allows frequency adjustments from 8 to 24 MHz, catering to the needs of a wide range of applications. Its compact size and efficiency in generating stable clock frequencies make it particularly suitable for embedded and portable devices.
The NXO-48M-3V3-TJ is an advanced high precision silicon oscillator built upon MOSCAD's revolutionary NXO Technology. This oscillator operates at a calibrated frequency of 48 MHz, providing a reliable and stable clock source for a multitude of applications. Built using TowerJazz's precision technology at a 0.13 µm process, this oscillator offers unparalleled performance while eliminating the need for external resonators. The core benefit of the NXO-48M-3V3-TJ lies in its ability to maintain high accuracy and stability without the drawbacks of mechanical components, such as vulnerability to vibration. This makes it particularly useful in environments subject to physical stresses where precision timing is critical. Its low current consumption further enhances its suitability for battery-powered devices. This oscillator can easily be integrated into ASICs, SoCs, or custom IC applications where robust clock generation is required. It is optimal for use in various sectors, including telecommunications, consumer electronics, and medical devices - anywhere that requires precise timing without mechanical inefficiencies.
The OT3912t Integrated Oscillator is a cutting-edge innovation aimed at delivering superior clock signals for USB Type-C applications. This oscillator is engineered for precision, offering a stable source of clock signals with minimal power consumption. It integrates smoothly into various systems, providing designers with an effective solution for clock generation in resource-constrained environments. The oscillator's architecture is crafted to provide a consistent frequency output, essential for maintaining reliable data transfer in devices such as smartphones, tablets, and other consumer electronics. Versatility is a hallmark of the OT3912t, making it a vital component for developers looking to achieve synchronization across different modules of their designs. Its compact design further enhances its suitability for modern electronics, where form factor is just as important as functionality.
The SGC22300 integrates a nano-power real-time clock powered by the advanced SGC21510 oscillator solution, making it ideal for ultra-low leakage and power-sensitive applications. Designed for prolonged battery or capacitor-run operations, it maximizes efficiency and power conservation in environments needing sustained timekeeping. This IP specializes in maintaining clock accuracy while minimizing leakage, with robust features such as a configurable divided square wave output to tailor clock signals for energy-efficient system integration. It includes comprehensive test modes, enhancing diagnostics and operational readiness, all while drawing minimal power from advanced system-on-chip configurations. Applications span from simple temporal tracking to complex system monitoring within IoT devices, where power efficiency and reliability are critical. The SGC22300 guarantees that systems can rely on precise timing without substantial energy costs, supporting adaptive clock management that extends beyond traditional RTC applications.
Designed for demanding precision timing requirements, the OT0210bt Crystal Oscillator covers a frequency range from 5MHz to 35MHz. Built using TSMC's robust processing capabilities, this oscillator is ideal for systems requiring high stability and low phase noise. It plays a vital role in communication systems where precise timing is crucial for data integrity and synchronization. This oscillator incorporates advanced design techniques to ensure minimal drift and high accuracy, critical for high-performance networking equipment and consumer electronics. The OT0210bt’s compact architecture makes it an excellent choice for space-constrained applications while providing the versatility needed in various technological environments. With its well-engineered design, it supports a wide array of system requirements, ensuring that devices maintain optimal performance under varied operational conditions.
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