设计启动器件 可为您的下一个设计提供一个良好的开端。无论您希望开始设计无线充电平台,还是快速设计低功耗蓝牙模块,我们的设计启动器件都能帮您快速上手。
DigiKey 与诸多行业领导厂家合作,可让您灵光闪现、创意涌动;这些启动器件是理想的构件,可帮您在弹指间完成设计构思的创建、绘制和记录。The demand of reliable Information Technology (IT) equipment like IP switches/routers brought out another challenge to embedded developers. In this case, the increase of the size of data transfers through electronic communication system requires equipment that could handle the operation properly. This design of universal frequency translators features a femtoclock UFT IC that has a one fractional-feedback PLL. It can be used as a frequency synthesizer or a frequency translator with jitter attenuation. It offers four independent programmable clocking outputs with up to three fractional output dividers. It supports SONET/SDH clocks including FEC rate conversions and accepts LVPECL, LVDS, LVHSTL, HCSL or LVCMOS input clocks.
This design features a fourth generation programmable femtoclock that provides reference frequencies to replace crystals and SAW oscillators in high-performance applications. It is programmable through I2C interface. It has four selectable LVPECL or LVDS via I2C while its FemtoClock NG VCO ranges between 1.9GHz to 2.55GHz. It also meets the standard interface requirements of PCI Express (2.5Gb/s), Gen 2 (5Gb/s), and Gen 3 (8Gb/s) jitter that are low in both clock synthesizers and phase-locked oscillators.
This reference design features the 8T49NS010 integrated circuit that functions as a clock synthesizer with a built-in fanout buffer and divider. By using an external clock source or a crystal, the 8T49NS010 can generate high performance timing geared towards the communications and datacom markets, especially for applications demanding extremely low phase noise jitter, such as 10, 40 and 100GE. Depending on the input used, the 8T49NS010's low phase noise integer-N PLL can multiply the reference to 2400MHz or 2500MHz.
8T49N028 Low RMS Phase Jitter Clock Synthesizer
Jitter is the measured difference between the expected value and the actual value of signal edges generated by a clock source. The jitters in clock signals are typically caused by noises, power supply transients, loading conditions, interference from nearby circuits or any other disturbances in the system. In digital, analog, and RF communications systems, jitter plays a large role in the degradation of signal integrity. That is why both analog and digital systems clock sources are designed to be very accurate and stable over time.
This reference design features the use of 5P49V5935 programmable clock generator that is well suited for networking and data communications applications. It is the fifth generation of programmable clock technology that has an integrated 25MHz crystal as input reference. It allows up to 4 different configurations to be programmed which is accessible using processor GPIOs or bootstrapping. The different selections may be used for different operating modes.
The 5P49V5943/5944 fifth generation IDT programmable clock generator is designed to support applications such as networking, industrial, data communications, etc. It can generate up to two independent output frequencies from a single input reference clock. This device has two select pins that allow up to four configurations to be programmed and is accessible using a processor GPIOs or bootstrapping. Its configurations can be stored in on-chip One-Time Programmable (OTP) memory or be changed through its I2C interface.
The clock generator produces a timing signal (clock signal) for synchronizing a circuit's operation. The VersaClock 5 is ideal for high-performance consumer, networking, industrial, computing, and data-communications applications. This circuit design is the evaluation board for the 5P49V5907 programmable clock generator with RMS phase jitter is less than 0.75 picoseconds over the full 12kHz to 20MHz integration range. The device meets the stringent jitter requirements of PCI Express Gen 1/2/3, USB 3.0, and 1G / 10G Ethernet.
This design features a programmable clock generator which can provides up to four independent output frequencies. The device configuration is stored in an on-chip One-Time-Programmable (OTP) memory which is loaded on startup. The configuration can be modified in operation through I2C interface and the parameters that can be configured include frequency, output signalling and level, loop bandwidth, output to output skew, and crystal load capacitance.The VersaClock 5 typically provides less than 0.7ps RMS phase jitter (integrated from 12kHz - 20 MHz) at the outputs. It is a programmable through I2C serial programming interface. It also features spread spectrum.
The clock generator produces a timing signal (clock signal) for synchronizing a circuit's operation. The VersaClock 5 is ideal for high-performance consumer, networking, industrial, computing, and data-communications applications. This circuit design is the evaluation board for the 5P49V5907 programmable clock generator with RMS phase jitter is less than 0.75 picoseconds over the full 12kHz to 20MHz integration range. The device meets the stringent jitter requirements of PCI Express Gen 1/2/3, USB 3.0, and 1G / 10G Ethernet.
This clock generator reference design is a 3.3V PCIe Gen1-2-3 Clock Generator. Its main component is the 9FGL0841, a member of IDT's 3.3V low-power PCIe family. The device has eight output enables for clock management and supports 2 different spread spectrum levels in addition to spread off. The output features eight 100MHz Low-Power High Speed Current Steering Logic (LP-HCSL) differential pairs and a 3.3V Low Voltage CMOS (LVCMOS) REF output with Wake-On-LAN (WOL) support.
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