Is this your business? Claim it to manage your IP and profile
This phase-locked loop (PLL) device is tailored for TSMC's 130nm process node, providing precision clock management essential for synchronization across complex systems. The OT3122t130 is engineered to deliver stable frequency outputs, making it crucial for applications that require stringent timing requirements, such as in communication and high-speed data processing platforms. Designed specifically to perform within the 130nm technology space, it takes advantage of the smaller node's capabilities, such as lower power consumption and higher efficiency. This makes it suitable for use in compact electronic systems where power budgets and thermal requirements are critical. Its versatility extends to various applications, including digital circuits and integrated systems, where precise clock signals are mandatory. The PLL efficiently manages jitter and noise, ensuring that systems operate reliably over a range of conditions.
The USB 3.1 Cable Marker is a sophisticated tool designed to enhance USB connectivity and manage data flows effectively. It serves as an important component for controlling USB Type-C technology, ensuring seamless communication between devices and peripheral equipment. This cable marker is particularly relevant in modern consumer electronics, where USB standards govern most device interactions. By offering increased data rates and power delivery, the USB 3.1 Cable Marker supports the latest advancements in transfer speeds. It is engineered to provide robust signal integrity and manage high data throughput without loss of performance. This functionality makes it indispensable for applications demanding high-speed data transmission and reliable connectivity. The marker is also designed to accommodate future advancements in USB technologies, providing a scalable solution that can evolve with changing industry standards. Thus, it not only satisfies current requirements but also anticipates future demands, making it an attractive choice for developers and manufacturers looking to invest in USB technology.
The Integrated Oscillator OT3912t is crafted to deliver stable and precise frequency generation, which is pivotal for synchronizing processes in electronic systems. By generating accurate clock signals, it acts as a foundational component in digital devices, ensuring that data transmission and processing occur in a controlled and efficient manner. Engineered for integration into broader systems, this oscillator supports various electronic applications, including those in consumer electronics and communication devices. Its design focuses on delivering robust performance with minimal power consumption, making it ideal for use in both portable and fixed installations. As advances in technology continue, the OT3912t is equipped to meet future standards for clocks, offering compatibility and adaptability with emerging digital technologies. Its high reliability in managing frequency drift and phase noise ensures it remains a valuable asset for designers working on the latest applications.
The Micro Power Bandgap OT0120t180 is a finely crafted solution operating on the TSMC 180nm process, pivotal for generating a stable reference voltage independent of temperature fluctuations and power supply variations. This is highly valuable across a spectrum of electronic applications where precision is key. Optimized for low-power operation, this bandgap reference is integral to the functionality of mixed-signal and analog integrated circuits. It enables high accuracy and precision, providing a consistent voltage reference that remains reliable even under challenging operating conditions. The architecture of the OT0120t180 allows it to be used in battery-powered devices, telecommunications, and industrial systems, where stability and power efficiency are paramount. Its design showcases a balance between performance and energy consumption, making it a preferred choice for designers seeking reliable bandgap references.
The OT3910bjc LVDS Transceiver is designed to enhance the efficiency of data communication systems by supporting low-voltage differential signaling. This component is essential in environments where noise reduction and high data rates are crucial, making it ideal for a range of modern electronic applications. LVDS technology excels in transmitting high-speed data over copper cables while minimizing power consumption and electromagnetic interference. The OT3910bjc offers robust performance in terms of signal integrity, allowing for high-fidelity data transfer even in electrically noisy environments. By integrating this transceiver, systems can achieve reliable data communication with low EMI, making it suitable for consumer electronics, automotive systems, and industrial applications. Its efficient design supports both compact system requirements and extensive network infrastructures requiring precise signal management.
Made for precision applications, the OT0210bt Crystal Oscillator is tailored for a wide frequency range from 5MHz to 35MHz, serving as a cornerstone in sound frequency reference and clock generation for various electronics. This oscillator is particularly important for applications that require stable frequency output with minimal drift and phase noise. The oscillator's design is optimized for robust performance in harsh environments, ensuring signal clarity and reliability in communication devices and high-speed data processing systems. Providing stable oscillations across its frequency spectrum, it is suitable for a range of devices from consumer electronics to industrial machinery. As electronic devices continue to advance, the need for reliable oscillation sources like the OT0210bt grows. This component promises consistent operation and long-term stability, reinforcing its role as an asset in comprehensive frequency management and synchronization within complex systems.
The USB PD Type-C AFE is a critical part of power delivery and USB technology, focusing on providing an analog front end for Type-C connectors. This component is essential for integration in applications requiring efficient power management and data communication through USB interfaces. AFE, or analog front end, serves as the interface between digital processors and the physical USB connection, handling the electrical signals with precision. By incorporating this component, manufacturers can ensure that their products manage power and data through USB ports effectively, supporting the current Type-C power standards. This integration into the product design not only aids in maintaining data integrity and power consistency but also allows the technology to adapt to rapidly changing industry standards. Its presence in a system ensures that devices are equipped to handle high data transfer rates while delivering reliable power performance.
Designed for the VIS 150nm process, the OT3122v150 GP PLL is an essential component for systems requiring precision frequency synthesis. Leveraging the benefits of the 150nm process, this PLL ensures high-performance clock generation and management, crucial for integrated circuit applications. The GP PLL offers versatility in various environments, providing stable frequency outputs that are indispensable for systems needing exact timing control. This makes it suitable for digital communication devices and complex data systems where precision timing ensures efficient data flow and system reliability. With a focus on reducing power consumption, the OT3122v150 is engineered to fit seamlessly into modern electronic systems, especially those within power-sensitive applications. By offering advanced phase noise performance and frequency stability, this PLL caters to the demand for resilient and efficient power designs.
The USB PD RTL is a comprehensive solution for managing USB power delivery, combining robust logic designs with compatibility for modern USB standards. With Power Delivery (PD) increasingly becoming a necessary feature for USB devices, this component ensures that manufacturers can integrate this capability seamlessly. RTL, or Register Transfer Level, refers to this component's logic design, underpinning the management processes for power negotiation through USB connections. This aspect ensures efficient communication between devices for optimal power transfer, significantly enhancing the power management capabilities of consumer electronics. With an ever-growing array of devices demanding power efficiency, incorporating USB PD RTL enables devices to meet high power delivery and charging standards. Its flexibility and compliance with latest protocols ensure products are future-ready, catering to the ongoing evolution of USB interfaces.
USB PD Software forms a vital component that accompanies hardware design in USB power delivery implementations. This software ensures proper functioning of the power negotiation protocols essential for PD, facilitating the communication between different hardware components within a USB system. It acts as a framework for managing priorities and configurations that determine how power is allocated and transferred across devices. By integrating this software, developers can tightly control PD functionalities, optimizing power usage, and managing connectivity efficiently. Incorporating USB PD Software is crucial for devices aiming to be competitive and compliant with emerging USB standards. Its ability to adapt to evolving protocol changes ensures long-term support of new features, keeping in step with advancements in USB technology for modern electronic devices.
The USB Type-C IP is a comprehensive suite of solutions designed to standardize and enhance USB connectivity across numerous platforms. This collection of scalable IP blocks includes analog front ends compatible with several technology nodes, ensuring versatility and wide-ranging application. Aimed at simplifying integration while maximizing performance, the Type-C IP package facilitates high-speed data transfer and power delivery. It includes RTL code compatible with Type-C specifications and dedicated support for compliance testing and turnkey integration, making it indispensable for developers of electronic devices. With USB Type-C becoming the standard connector for modern devices, this IP not only provides the necessary infrastructure but also ensures that devices meet contemporary requirements for speed, power, and robustness. Its provision of engineering support further underscores its value in the constantly evolving world of consumer electronics.
Crafted for the 180nm process, the OT1150t180_50mA Buck Regulator is crucial for converting higher input voltages to lower output voltages, a fundamental requirement in numerous electronic applications. This compact device is designed to provide efficient power management, allowing it to stabilize voltage outputs which are vital in sensitive electronics. Incorporating advanced control techniques, this buck regulator ensures minimal power dissipation and optimal thermal performance. Its compatibility with TSMC's 180nm technology highlights its integration potential within various semiconductor devices, offering power efficiency in conjunction with precision voltage regulation. Ideal for battery-operated devices, telecommunications equipment, and processors, the OT1150t180_50mA caters to systems where power conversion and management are integral to operational success. Its design promises sustained performance and reliability, even in demanding power scenarios, making it a trusted choice for power regulation tasks.
The OT3122t180 GP PLL is a versatile phase-locked loop designed for use in TSMC 180nm environments, offering a range of clock management functionalities crucial to maintaining system integrity in complex electronics. This device is engineered to support applications that demand tight frequency control and low jitter. It integrates seamlessly with semiconductor systems, capitalizing on the benefits of the 180nm node, such as balanced power efficiency and operational performance. This is particularly beneficial for consumer electronics and embedded systems demanding rigorous timing and synchronization. By supporting diverse applications, the OT3122t180 efficiently mitigates timing discrepancies and enhances signal integrity, forming a reliable component within the electronics ecosystem. This assures designers of a robust solution adaptable to the evolving needs of modern technology environments.
The OT3913t180 Low Power Oscillator is crafted to provide efficient timing solutions while minimizing energy consumption, making it perfect for use in battery-powered and energy-sensitive devices. Operating efficiently under the TSMC 180nm node, it is designed for reliability and stability in time-sensitive circuits. By delivering precise clock signals, this oscillator aids in synchronizing operations across various applications, ensuring that timing constraints are met with high accuracy. This low power operation is essential in prolonging device life, making it an optimal choice for portable electronics and IoT devices. It supports diverse application needs, reinforcing device efficiency without sacrificing performance. Its resilience in maintaining frequency integrity aims to meet modern demands for precision-timed electronic systems, promoting enhanced circuit performance and reliable operation.
The USB Cable Marker from Obsidian Technology is engineered to enhance the management of USB cables in devices supporting Type-C connections. This technology plays a critical role in maintaining order and functional clarity amidst the complex assemblies of modern electronic devices. By clearly marking and managing cable orientations, the USB Cable Marker assists in ensuring correct connections, minimizing errors in device usage and improving user experience. Its robust design supports regular handling and adjustments without compromising performance. As USB Type-C becomes increasingly common across a vast range of devices, integrating such marking systems is crucial in minimizing potential confusion and connection errors. The USB Cable Marker thus represents a simple but effective solution to streamline device assembly and maintenance.
Designed to accommodate a frequency range of 5MHz to 35MHz, the OT0210bj Crystal Oscillator offers accurate and stable oscillation perfect for timing-sensitive electronic applications. This component serves as an exceptional choice for devices requiring consistent clock signals to maintain operational integrity. Its design focuses on minimizing frequency drift and phase noise, factors crucial for high-speed communication systems and data processing units. The oscillator's reliability allows it to sustain performance across varied environments, ideal for both consumer-facing electronics and complex industrial systems. As electronic systems evolve, the demand for steadfast timing components like the OT0210bj increases, ensuring devices run smoothly and efficiently. Its robust construction ensures longevity and performance consistency, making it an invaluable asset in maintaining impeccable timekeeping in advanced electronic systems.
Join the world's most advanced semiconductor IP marketplace!
It's free, and you'll get all the tools you need to discover IP, meet vendors and manage your IP workflow!
Join the world's most advanced AI-powered semiconductor IP marketplace!
It's free, and you'll get all the tools you need to advertise and discover semiconductor IP, keep up-to-date with the latest semiconductor news and more!
Plus we'll send you our free weekly report on the semiconductor industry and the latest IP launches!
To evaluate IP you need to be logged into a buyer profile. Select a profile below, or create a new buyer profile for your company.