Is this your business? Claim it to manage your IP and profile
This current reference solution offers stability and precision with its band-gap and PTAT configurations. It can achieve multiple outputs, leveraging internal and external resistors for accurate current referencing. The design is programmable within a ±30% range, accommodating diverse analog and mixed-signal IC applications, particularly within RF systems needing reliable reference points.
A 24GHz Colpitts Voltage Controlled Oscillator designed using SiGe technology from TowerJazz, VCO24G is built for reliability in high-frequency applications. It ensures low phase noise and is tailored for use in various RF and mixed-signal environments, particularly within PLLs to maintain system signal integrity and produce stable, high-frequency outputs efficiently.
Crafted with TowerJazz's SiGe process, the VCO25G is a 25.5GHz Colpitts Voltage Controlled Oscillator noted for its low noise and cost-effective design. This component supports applications in phase-locked loops and broadband measurement systems, where low phase noise and stability in generating precise frequencies are critical. The differential architecture ensures performance efficiency across various operational contexts.
The SERDES12G module integrates serialization and deserialization functionalities within fiber optic transceivers operating at data rates between 8.5 and 11.3Gb/s. Utilizing CML logic for enhanced noise immunity, it features line rate output data retiming, making it indispensable in high-speed networking applications where precise data modulation is crucial.
This IP block is essential for efficient data/clock recovery and deserializing in XFI and SONET/SDH protocols, supporting data rates from 8.5 to 11.3Gb/s. With ultra-low power consumption and 65nm CMOS technology from IBM, DSER12G ensures robust operation with versatile design options, incorporating a financial N divider, equalizer, and loss of signal (LOS) and lock (LOL) indicators for enhanced deployability.
This high-performance cross-correlator module integrates 128 channels of 1GSps ADCs. Each channel features a VGA front end, optimizing it for synthetic radar receivers and spectrometer systems. It excels in low power consumption, critical in space-limited applications like satellite-based remote sensing or data-intensive spectrometers, making it invaluable in advanced research operations.
Specially designed for robust data serialization of 8.5 to 11.3Gb/s signals, the SER12G incorporates state-of-the-art CML logic for high noise immunity and low power functionality. Used in fiber optic transceivers, this IP block facilitates efficient signal transmission with output data retiming features, guaranteeing high performance in data-intensive environments like SONET/SDH.
The DIV50G1 is a versatile programmable prescaler designed to handle frequencies up to 50GHz with various division capabilities, essential for high-precision signal processing tasks. Packed in a low-cost SiGe process by TowerJazz, it offers programmable division coefficients making it suitable for diverse applications, particularly in broadband measurement settings where different division ratios are necessary for signal coherence.
The PLL12G offers a comprehensive Clock Multiplication Unit (CMU) X32 for generating output clocks in the range of 8.5 to 11.3GHz. It supports various clocking modes essential for maintaining synchronization in complex data environments like 10GbE and OC-192 transceivers. Built with energy efficiency in mind, this component is perfect for accelerating network throughput without compromising on power demands.
Capable of handling frequencies up to 60GHz, the DIV60G is a differential frequency divider by 2, ideal for use in broadband test and measurement equipment. It includes an input active balun and provides I/Q outputs for precise frequency management. Fabricated using TowerJazz's 0.18um SiGe technology, this IP component is tailored for PLLs and is characterized by ultra-high-frequency operation using either single-ended or differential inputs.
The XCM_64X64 is a complete cross-correlator designed for synthetic radar receivers. With 64 channels arranged in a sophisticated configuration, it processes vast amounts of data efficiently at low power consumption rates. Ideal for radiometers and spectrometer applications, this module is tailored for environments where bandwidth and speed are pivotal, supporting precise remote sensing operations.
Designed for fiber optic communications, the EAMD12G is an efficient modulator driver capable of supporting signals up to 11.3Gb/s. It offers programmable output voltage swing, crossing control, and offset monitoring, ensuring flexibility across diverse operational scenarios. Its SiGe foundation offers cost-effectiveness, making it suitable for both economical and high-performance implementations.
This flexible, multi-band Voltage Controlled Oscillator facilitates fiber optic communication applications with its low noise design. Offering a wide frequency range, the VCOMB12G supports diverse clocking modes applicable to current telecommunication standards. It serves as an effective Clock Multiplication Unit in optical networks, ensuring synchronization and signal integrity in high-data-rate environments.
This high-performance photonic interconnect solution is designed to cater to the demanding requirements of modern data centers and telecommunications infrastructures. It capitalizes on photonic integration to deliver exceptional data transfer rates while minimizing latency and power consumption. With its state-of-the-art architecture, it supports various modulation formats and offers flexibility in its deployment across multiple networking scenarios.
The Advanced RF Module is architected to cater to the needs of wireless communication systems, offering support for a wide frequency range while maintaining robust signal integrity. This module integrates seamlessly into existing infrastructures, providing enhancements in both performance and efficiency. It's suitable for applications in broadband communications, test equipment, and high-frequency data transfer environments.
The Integrated Mixed-Signal Phase-Locked Loop (PLL) is tailored for applications requiring high precision and stability. Blending analog and digital technologies, this PLL maintains a lock on frequency with minimal jitter and drift, which is crucial in telecommunications and data communications where signal integrity is paramount. Its versatile design allows it to be adapted for numerous industry applications.
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!
No credit card or payment details required.
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.
