FemtoClock® NG Jitter Attenuator and Clock Synthesizer

The 8V19N474 is a fully integrated FemtoClock® NG Jitter Attenuator and Clock Synthesizer designed as a high-performance clock solution for conditioning and frequency/phase management of 10/40/100/400 Gigabit-Ethernet line cards. The device is optimized to deliver excellent phase noise performance as required to drive physical layer devices and provides the clean clock frequencies of e.g. 625, 500, 312.5, 250, 156.25 and 125MHz. A two-stage PLL architecture supports both jitter attenuation and frequency multiplication. The first stage PLL is the jitter attenuator and uses an external VCXO for best possible phase noise characteristics. The second stage PLL locks on the VCXO-PLL output signal and synthesizes the target frequency. This PLL has a VCO circuit at 2500MHz. The device generates the output clock signals from the VCO by frequency division. Five independent frequency dividers are available, four support integer-divider ratios and one integer as well as fractional-divider ratios. Delay circuits can be used for achieving alignment and controlled phase delay between clock signals. The two redundant inputs are monitored for activity. Four selectable clock switching modes are provided to handle clock input failure scenarios. Auto-lock, individually programmable output frequency dividers and phase adjustment capabilities are added for flexibility. The device is configured through an SPI interface and reports lock and signal loss status in internal registers and via an lock detect (LOCK) output. Internal status bit changes can also be reported via the nINT output. The device is ideal for driving converter circuits in wireless infrastructure, radar/imaging and instrumentation/medical applications.

For information regarding evaluation boards and material, please contact your local IDT sales representative.

Features

  • High-performance clock RF-PLL
  • Optimized for low phase noise: -153dBc/Hz (1MHz offset; 156.25MHz clock)
  • Integrated phase noise (12kHz-20MHz) of 75fs RMS typ.
  • Dual-PLL architecture
  • 1st-PLL stage with external VCXO for clock jitter attenuation
  • 2nd-PLL stage with internal FemtoClockNG PLL at 2500MHz
  • 6 output banks with a total of 12 outputs, organized in:
    • Two clock banks with one integer frequency divider and three differential outputs
    • Two clock banks with one integer frequency divider and two differential outputs
    • One clock bank with one fractional output divider and one differential output
    • One VCXO-PLL output bank with one selectable LVDS/two LVCMOS outputs
  • Four output banks contain a phase delay circuit with steps of the VCO clock period (400ps)
  • Supported clock output frequencies include: 
    • from the integer dividers: 2500, 1250, 625, 500, 312.5, 250, 156.25 and 125MHz
    • from the fractional divider: 80 – 300MHz
    • Low-power LVPECL/LVDS outputs support configurable signal amplitude, DC and AC coupling and LVPECL, LVDS line terminations techniques
  • Redundant input clock architecture
  • Two inputs
  • Individual input signal monitor
  • Digital holdover
  • Manual and automatic clock selection
  • Hitless switching
  • Status monitoring and fault reporting
  • Input signal status
  • Hold-over and reference loss status
     

Product Options

Orderable Part ID Part Status Pkg. Code Pkg. Type Lead Count (#) Temp. Grade Pb (Lead) Free Carrier Type Buy Sample
8V19N474BFGI Active BFG81D1 CABGA 81 I Yes Tray Availability
8V19N474BFGI8 Active BFG81D1 CABGA 81 I Yes Reel Availability

Technical Documentation

Title Other Languages Type Format File Size Date
Datasheets & Errata
8V19N474 Datasheet Datasheet PDF 981 KB Nov 12, 2017
IDT Products for Wired Broadband Applications Application Briefs PDF 686 KB Sep 1, 2017
User Guides & Manuals
8V19N47x Hardware Design Guide Guide PDF 607 KB Jul 5, 2017
Application Notes & White Papers
AN-815 Understanding Jitter Units Application Note PDF 476 KB Apr 23, 2014
AN-842 Thermal Considerations in Package Design and Selection Application Note PDF 403 KB May 11, 2014
AN-839 RMS Phase Jitter Application Note PDF 149 KB May 6, 2014
AN-838 Peak-to-Peak Jitter Calculations Application Note PDF 32 KB May 6, 2014
AN-827 Application Relevance of Clock Jitter Application Note PDF 1.06 MB Apr 23, 2014
AN-806 Power Supply Noise Rejection Application Note PDF 353 KB Jan 14, 2014
AN-805 Recommended Ferrite Beads Application Note PDF 38 KB Jan 14, 2014
Other
The IDT Communications Products Advantage Overview PDF 2.54 MB Feb 13, 2017
IDT Clock Generation Overview 日本語 Overview PDF 1.83 MB Apr 28, 2016
IDT Products for Radio Applications 日本語 Product Brief PDF 2.34 MB Nov 29, 2016
IDT Clock Distribution Overview 日本語 Overview PDF 3.79 MB Apr 24, 2016
RF-Grade Clock Jitter Attenuator and Frequency Synthesizer Product Brief Product Brief PDF 847 KB Sep 27, 2015