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 fundamental in generating periodic waveforms and are critical in defining the timing in electronic systems. Advinno's oscillator solutions are designed to deliver precise and stable frequencies, serving as a backbone for reliable communication and processing systems. The importance of oscillators is seen in their role in timing control, modulation, and signal processing tasks. These oscillators are engineered to minimize phase noise and frequency drift, ensuring high precision even in challenging environmental conditions. By integrating high-quality resonators and cutting-edge modulation techniques, Advinno ensures that these oscillators remain efficient and effective in a broad spectrum of applications. Their stability is paramount in applications demanding tight frequency control and minimal jitter. Incorporating Advinno's oscillators into electronic systems enables seamless operation and enhances overall device performance. They are particularly suited for use in scenarios with strict timing requirements, such as telecommunications, radar systems, and various digital applications, where precision and reliability cannot be compromised.
This Internal RC Oscillator covers a wide frequency range from 32.768KHz to 20MHz, intended for applications requiring precise timing and clock generation. Its wide range is suitable for various designs, providing exceptional stability for complex digital systems. The oscillator has been validated in Magna's process nodes of 180nm and 130nm, ensuring it performs reliably in diverse environments, making it a critical component of numerous time-sensitive applications.
eSi-Analog integrates critical analog functionality into custom ASIC and SoC devices using leading foundry processes. It is optimized for low-power usage, ensuring efficiency and adaptability across a range of applications. This IP has been silicon-proven to meet custom specifications, providing reliability and performance in various high-demand sectors.
Moonstone Laser Sources by Lightelligence provide cutting-edge photonic solutions aimed at facilitating advanced optical computing applications. These laser sources are tailored for high precision and efficiency, essential for tasks demanding robust photonic performance. The unique attributes of Moonstone make it suitable for integration into diverse technological frameworks where precision and reliability are paramount. As the backbone of optical computing, laser sources like Moonstone ensure that photonic applications achieve desired speed and accuracy, fostering greater innovation in photonics-driven technologies. With their focus on precision and application flexibility, Moonstone Laser Sources empower industries to explore new frontiers in photonics, supporting the evolution of next-generation computing technologies.
Analog Bits offers a diverse range of high-quality clocking solutions, optimized for low power consumption and customizable to meet specific customer requirements. These solutions include advanced phase-locked loops (PLLs) and oscillators designed for high-performance, wide-range integer/fractional applications across a variety of processes. The clocking products from Analog Bits are silicon-proven at advanced nodes such as 5nm and are in high-volume production. They are available at major fabrication facilities, ensuring availability and feasibility for various system-on-chip (SoC) designs. Their adaptability enables seamless integration into consumer, server, and automotive applications, supporting robust and reliable clock generation across multiple platforms. By offering customizable options, Analog Bits addresses specific needs, providing superior phase noise performance and low jitter. Their clocking solutions also support PCIe reference clock subsystems, ensuring broad compatibility and high integration for modern semiconductor technologies.
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.
Crafted for precise high-frequency applications, this 20MHz RC Oscillator plays a pivotal role in clock generation and timing circuits. Built on Samsung's 65nm technology, it offers remarkable stability and performance essential for high-speed digital circuits. Its silicon-proven design ensures it remains reliable and accurate, making it a trusted solution for functional and effective timing in a variety of electronic systems.
CoreVCO stands as a versatile voltage-controlled oscillator design, optimized for high performance in RF and mixed-signal environments. Known for its rapid switching capabilities and wide frequency range, it's ideal for applications that require agile frequency control. This VCO maintains low phase noise and a high tuning linearity, ensuring stable outputs across variable conditions. Its design emphasizes compactness and power efficiency, making it suitable for portable and space-constrained devices. The robust output power and phase noise characteristics make CoreVCO particularly appealing for high-fidelity electronic systems. CoreVCO is engineered to integrate seamlessly into a range of electronic applications, enhancing the functionality and reliability of RF transceivers, signal generators, and phase-locked loops. Its adaptability allows customization to meet specific project demands, supporting diverse technologies across various sectors.
The NXO-48M-3V3-TJ is an advanced silicon oscillator utilizing MOSCAD's proprietary NXO Technology, which offers a robust alternative to traditional crystal oscillators by integrating high precision within the silicon itself. This innovation eliminates the need for additional components, significantly cutting costs and improving system flexibility and reliability. This oscillator covers a frequency range adaptable to multiple operational contexts, offering dynamic reconfiguration without the need for recalibration. Its ability to maintain accuracy regardless of frequency changes makes it well-suited for systems with power-saving modes, where operational frequencies might change to reduce energy use. Significantly, the NXO-48M-3V3-TJ is resistant to mechanical vibrations and aging, disadvantages often associated with mechanical resonators. This ensures consistent performance across its lifecycle, making it an attractive choice for manufacturers seeking robust and durable oscillator solutions that can adapt to a variety of environments and applications.
The pPOR01 is a robust power-on reset circuit designed for reliable initialization of digital systems. Engineered to handle various power-up scenarios, this circuit ensures that digital devices start in a known state despite possible fluctuations during power application. The pPOR01 is characterized by its low power consumption and compact design, which facilitates easy integration into diverse digital platforms. It provides an essential reset mechanism critical for stable system performance across an array of technology nodes.
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.
This 32 kHz RC oscillator is specifically designed for the implemenation of accurate time-based features in always-on domains. With an overall precision better than 500 ppm on its full voltage and temperature operating ranges, Dolphin's IP meets the sleep clock accuracy requirements of the BLE standard, removing the need for an external crystal. Depending on applicative use cases, the operating mode can be either programmed for high accuracy or low-power. A frequency monitoring is implemented: the digital output signal FOK informs the application when the frequency has reached the correct frequency value after leaving shutdown or standby modes. The IP also embeds configurable debugging features.
The OSC-XTAL-32k-TS-22ULL.01 32 kHz crystal oscillator is an excellent choice for IoT SoC designed in TSMC 22nm ULL technology with stringent power consumption constraints. It features a high accuracy 32 kHz clock for implementing RTC with calendar and timekeeping functions in the always-on domain and an ultra-low current consumption to extend the battery lifetime in sleep modes.
Ultra-low power 32 kHz RC oscillator designed in TSMC 22ULL for IoT SoC and ULP MCU applications requiring fast wake-up.
The RTC-32k-CAL.01 is a low power RTC relying on a crystal oscillator and designed to achieve the requirements of low power modes and deep sleep modes of IoT devices. Together with the qOSC-XTAL-LP- 32k-co.01 it will allow you to achieve the lowest power consumption for your Always-On domain.
Low-power 32 kHz RC oscillator in TSMC 22ULL.
The qOSC-XTAL-LP-32k-co.05 32 kHz crystal oscillator is an excellent choice for IoT SoC designed in TSMC 40nm ULP technology with stringent power consumption constraints. It features a high accuracy 32 kHz clock for implementing RTC with calendar and timekeeping functions in the always-on domain and an ultra-low current consumption to extend the battery lifetime in sleep modes.
Ultra-low power 32 kHz RC oscillator designed in SMIC40 for IoT SoC and ULP MCU applications requiring fast wake-up
High accuracy 32 kHz Crystal oscillator with low-power consumption and low shutdown current to be used in the AON domain to implement RTC and calendar functions for SoC designed in SMIC40
Ultra-low power 32 kHz RC oscillator designed in Samsung Foundries 65nm LFR6LP (eFlash process) for IoT applications and ULP MCU applications
This 32 kHz crystal oscillator is an excellent choice for IoT SoC designed in TSMC 22nm ULL technology with stringent power consumption constraints. It features a high accuracy 32 kHz clock for implementing RTC with calendar and timekeeping functions in the always-on domain and an ultra-low current consumption to extend the battery lifetime in sleep modes.
The OSC-XT-32k-T12FFC.01 IP is an ultra-low power crystal-based oscillator designed in TSMC 12 nm FF for accurate 32 kHz clock generation in the SoC Always-On domain (eg. implementation of RTC features). An embedded auxiliary loop controls the voltage amplitude at the crystal terminals for maximizing the power efficiency for multiple crystals. It enables to drive external crystal-dependent pulling capacitors, thus allowing to select the best trade-off between BoM and frequency accuracy. A bypass mode allows to drive an external clock through the IP to its output port.
Ultra-low power 32 kHz RC oscillator designed in TSMC 40 LP for IoT SoC and ULP MCU applications requiring fast wake-up.
The Always-On domain, over which the power islets emerge, requires a specific panoply of clocks. The availability of extremely low power oscillators is therefore a must. In low power modes, low speed clocks are generally used. The qOSC-XTAL-LP-32k-co.01 - low frequency crystal oscillator - is an excellent choice for application combining the needs of high accuracy on the always-on clock and an ultra-low power consumption.
Ultra-low power 32 kHz RC oscillator designed in GF 22FDX for IoT SoC and ULP MCU applications requiring fast wake-up.
Ultra-low power 32 kHz XTAL oscillator designed in Samsung Foundries 65nm LFR6LP (eFlash process) for IoT applications and ULP MCU applications
32 kHz RC oscillator based on TSMC 22nm ULL process with 1.8 V I/O MOSFET devices. Low-power architecture for the implementation of always-on domains. The IP informs the host when the frequency has reached a stable frequency value after leaving shutdown or standby mode.
The Always-On domain, over which the power islets emerge, requires a specific panoply of clocks. The availability of extremely low power oscillators is therefore a must.In low power modes, low speed clocks are generally used. The qOSC-XTAL-LP-32k-co.01 - low frequency crystal oscillator - is an excellent choice for application combining the needs of high accuracy on the always-on clock and an ultra-low power consumption.
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