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VCOMB12G is a multi-band differential LC VCO, designed for low noise operations. With its tested configuration on an ASIC, it covers a wide frequency range and provides support for various clocking modes suited for phase-locked loops and fiber optic applications. This block enhances power efficiency and performance, optimized for critical communications applications.
The REFS IP block offers a band-gap and PTAT current reference, boasting multiple outputs that can be referenced to both internal and external resistors. This flexibility in current programmability forms an integral part of its design, allowing for adjustments of up to ±30%. Such features make it ideal for RF, analog, and mixed-signal IC applications, offering a stable reference crucial for precise electronics operations.
The VCO24G is a 24GHz VCO built on the robust Colpitts design which is appreciated for its low noise characteristics. It is developed using the cost-effective TowerJazz's 0.18um SiGe technology. Given its architectural efficacy in minimizing noise, it's an excellent component for PLLs and broadband test and measurement equipment, offering a balance between cost and high-frequency performance.
The EAMD12G serves as a versatile EA/MZ modulator driver for speeds reaching up to 11.3Gb/s. It includes functionality for programmable output voltage swing and offset, with comprehensive monitoring capability to fine-tune crossing points. Developed utilizing the affordable TowerJazz 0.18um SiGe process, this IP is suitable for fiber optic communications and supports broadband high output swing limiting amplifiers, making it a strategic choice for high-speed digital communication systems.
The XCM_64X64_A is a specialized ASIC boasting an array of 128 ADCs, each 2-bit and sampling at 1GSps. It comes with a VGA front end and functions as a cross-correlator, tested for applications in synthetic radar receivers and spectrometers, notably used by NASA. Fabricated on IBM's 45nm SOI CMOS technology, this IP addresses the needs for low power consumption and high data throughput, particularly in bandwidths ranging from 10MHz to 500MHz.
The DIV50G1 is a versatile programmable prescaler supporting division ratios of 1, 2, 4, 8, and 16, handling frequencies up to 50GHz. Testing ensures verification of maximum frequency and power performance. This IP, using TowerJazz's 0.18um SiGe SBC18HX process, supports both single-ended and differential inputs with differential outputs, making it ideal for applications such as PLLs and equipment requiring broadband measurement capabilities.
The DIV60G is a differential frequency divider capable of handling frequencies up to 60GHz. It comes equipped with an active balun for input and provides I/Q differential outputs. This IP is tested on a bare die to ascertain the maximum dividing frequency capability, making it particularly suitable for high-frequency applications such as PLLs and broadband test equipment. Utilizing TowerJazz's 0.18um SiGe SBC18HX process, this IP offers a wide frequency range from DC to 60GHz with both single-ended and differential input options, making it ideal for high-frequency prescaler functions.
PLL12G is a sophisticated Clock Multiplier Unit (CMU) supporting multiple clocking modes and delivering an 8.5-11.3GHz output clock. Used extensively within OC-192 compliant systems, this IP ensures superior performance across various communication scenarios by offering efficient clock setups like FEC+G.709, FEC-only configurations. This flexibility and power efficiency make it ideal for high-demand telecommunications applications.
The VCO25G is a 25.5GHz Colpitts architecture Voltage Controlled Oscillator (VCO), known for its low noise differential design. This IP employs a cost-effective 0.18um SiGe process by TowerJazz, making it a suitable choice for PLLs and broadband test and measurement equipment. The VCO25G provides a reliable solution for generating stable high-frequency signals, benefiting various RF applications demanding low phase noise and precise frequency control.
The XCM_64X64 offers complete cross-correlation capabilities across 64x2 channels, supporting bandwidths of 10MHz to 500MHz. Leveraging IBM's 45nm SOI CMOS technology, this cross-correlator is designed for synthetic radar receivers and spectrometers, achieving ultra-low power consumption, crucial for NASA's demanding applications. Its advanced design integrates collaboratively tested configurations to ensure efficient and high-speed data processing.
The SER12G IP focuses on robust serialization with a 32:1 capability for data rates between 8.5 and 11.3Gb/s. Uniquely developed for fiber optic transceivers, this component offers increased reliability by managing independent on data coding. Based in IBM's 65nm 10LPe technology, it proves effective for SONET/SDH OC-192 transmitters, enhancing line rate output data retiming via a low-power, high-efficiency framework, fully supporting CMU integration with a fractional-N PLL.
DSER12G is engineered for robust data and clock recovery, supporting data rates from 8.5 to 11.3Gb/s. It operates independently on data coding and offers deserialization in a 1:32 ratio. Tested on fiber optic transceiver ASICs, the IP utilizes IBM's 65nm 10LPe process to ensure low power operation and high performance in SONET/SDH OC-192 systems, making it a critical component in high-speed data transfer,
SERDES12G provides an integrated solution for data serialization and deserialization, supporting robust 32:1/1:32 operation at data speeds from 8.5 to 11.3Gb/s. Designed for high-performance fiber optic transceivers, this IP in IBM's 65nm 10LPe process ensures strong noise immunity and low-power operation, making it optimal for critical communication standards like SONET/SDH OC-192. It integrates CMU with a fractional-N PLL, delivering precision in clock management and data integrity.
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