メインコンテンツに移動

概要

説明

The 8A34011 line card synchronizer for IEEE 1588 regenerates and distributes ultra-low jitter; precision timing signals that are locked to IEEE 1588 and Synchronous Ethernet (SyncE) reference sources elsewhere in a system. The device can be used to precisely synchronize IEEE 1588 Time Stamp Units (TSUs) and SyncE ports on line cards or daughter cards that are connected with synchronization sources across backplanes or other media that introduce clock propagation delays. Digital PLLs (DPLLs) support hitless reference switching between references from redundant timing sources. The device can be used to actively measure and compensate for clock propagation delays across backplanes and across circuit boards to ensure the distribution of accurate time and phase with minimal time error between IEEE 1588 TSUs in a system. The device supports multiple independent timing channels for IEEE 1588 clock synthesis, SyncE clock generation, jitter attenuation, and universal frequency translation. Input-to-input, input-to-output and output-to-output phase skew can all be precisely managed. The device outputs ultra-low jitter clocks that can directly synchronize SerDes running at up to 28Gbps; as well as CPRI/OBSAI, SONET/SDH and PDH interfaces and IEEE 1588 TSUs.

To see other devices in this product family, visit the ClockMatrix™ Timing Solutions page.

特長

  • Eight independent timing channels
  • Jitter output below 150fs RMS (typical)
  • Digital PLLs (DPLLs) lock to any frequency from 1kHz to 1GHz
  • DPLLs/Digitally Controlled Oscillators (DCOs) generate any frequency from 0.5Hz to 1GHz
  • DCO outputs can be aligned in phase and frequency with the outputs of any DPLL or DCO
  • DPLLs comply with ITU-T G.8262 for Synchronous Ethernet (SyncE)
  • IEEE 1588 Support:
    • Precise (1ps) resolution for phase measurement and control
    • All outputs/inputs can be configured to decode/encode PWM clock signals
    • PWM can be used to transmit and receive embedded frame and sync pulses; as well as Time of Day (ToD) and other data
  • Supports up to 8 differential or 16 single-ended reference clock inputs
  • Supports up to 12 differential outputs or 24 LVCMOS outputs
  • Reference monitors qualify/disqualify references depending on LOS, activity, frequency monitoring and/or LOS input pins
  • Automatic reference selection state machines select the active reference for each DPLL based on the reference monitors, priority tables, revertive/non-revertive, and other programmable settings
  • Device requires a crystal oscillator or fundamental-mode crystal: 25MHz to 54MHz
  • Serial processor ports support 1MHz I²C or 50MHz SPI
  • The device can configure itself automatically after reset via:
    • Internal Customer-programmable One-Time Programmable memory 
    • Standard external I²C EPROM via separate I²C Master Port

製品比較

アプリケーション

ドキュメント

設計・開発

ソフトウェア/ツール

ソフトウェア/ツール

Software title
Software type
会社名
Timing Commander
Timing Commander™は、Windows™ベースの革新的なソフトウェアプラットフォームで、システム設計を行うエンジニアは、直感的かつ柔軟なグラフィカルユーザインタフェース(GUI)により、高度なタイミングデバイスの構成、プログラミング、モニタリングが行えます。
Code Generator ルネサス
1件

ソフトウェアダウンロード

分類 タイトル 日時
ソフトウェア/ツール-ソフトウェア ログインしてダウンロード ZIP 18.02 MB
ソフトウェア/ツール-ソフトウェア ログインしてダウンロード ZIP 613 KB
ソフトウェア/ツール-その他 TCP 53.00 MB
ソフトウェア/ツール-その他 ログインしてダウンロード PDF 488 KB
ソフトウェア/ツール-その他 ログインしてダウンロード PDF 222 KB
5件

モデル

ECADモデル

[製品選択]テーブル内の製品名をクリックするとSamacSysが提供する回路図シンボル、PCBフットプリント、3D CADモデルがご確認いただけます。 お探しのシンボルやモデルが見つからない場合、Webサイトから直接リクエストできます。

Diagram of ECAD Models

ビデオ&トレーニング

ClockMatrix Timing Solution for 100Gbps Interface Speeds (IEEE 1588, OTN, and SyncE)

Introducing the IDT ClockMatrix™ family of devices - high-performance, precision timing solutions designed to simplify clock designs for applications with up to 100 Gbps interface speeds.

They can be used anywhere in a system to perform critical timing functions, such as clock generation, frequency translation, jitter attenuation and phase alignment. A range of devices in the family support BBU, OTN, SyncE, synthesizer and jitter attenuator applications with several density options for each.

For more information, visit the ClockMatrix™ Timing Solutions page.