Description
AFBR-57F5xMZ
The Avago AFBR-57F5xMZ is an optical transceiver module that supports high speed serial links over multi-mode optical fiber at signaling rates up to 14.025 Gb/s (the serial line rate of 16GFC). The product is compliant with Small Form Pluggable industry agreements SFP and SFP+ for mechanical and low speed electrical specifications. High speed electrical and optical specifications are compliant with ANSI Fibre Channel FC-PI-5.
The AFBR-57F5xMZ is a multi-rate 850nm transceiver which ensures compliance with FC-PI-5 16GFC, 8GFC and 4GFC specifications. Per the requirements of 16GFC, internal clock and data recovery circuits (CDRs) are present on both electrical input and electrical output of this transceiver. These CDRs will lock at 14.025Gb/s (16GFC) but must be bypassed for operation at 10.3125 Gb/s (10GE), 8.5Gb/s (8GFC) and 4.25 Gb/s (4GFC), accomplished by using two Rate Select inputs to configure transmit and receive sides. Transmitter and receiver can operate at different data rates, as is often seen during Fibre Channel speed negotiation.
Digital diagnostic monitoring information (DMI) is present in the AFBR-57F5xMZ per the requirements of SFF-8472, providing real time monitoring information of transceiver laser, receiver and environment conditions over a SFF-8431 2-wire serial interface.
特征描述:
- 符合 RoHS 指令
- 850 納米垂直腔面發(fā)射激光器 (VCSEL)
- 符合 IEC60825-1 和 CDRH Class 1 護眼標準
- 溫度范圍廣泛(0°C 到 +85°C)
- LC 雙工光纖連接器接口符合 ANSI TIA/EIA604-10 (FOCIS 10A) 的要求
- 診斷特點依照 SFF-8472“用于光纖收發(fā)器的診斷監(jiān)測接口”
- 增強的運行特征包括 EWRAP、OWRAP 和可變電氣 EQ/重點設置
- 實時監(jiān)測:
- 發(fā)射器的平均光學功率
- 接收光纖的平均功率
- 激光偏壓電流
- 溫度
- 供電電壓
- 根據(jù) SFF-8432 的 SFP+ 機械規(guī)格
- 符合 SFP+ 的低速接口
- 符合光纖通道 FC-PI-5 的高速接口
- 符合光纖通道 FC-PI-5 的光纖鏈路距離
- AFBR-57F5UMZ 可根據(jù) IEEE 802.3ae 10GBASE-SR 標準在傳輸率為 10.3125 Gb/s 時與符合 10GE 的收發(fā)器相互操作,與 Avago 的 10G-USR 收發(fā)器連用時,使用 OM3 多模光纖 (MMF),連接距離高達 100 米,OM4 多模光纖 (MMF) 高達 125 米。
規(guī)格:
資料速率: |
14.025/8.5/4.25 GBd |
產品類別: |
LC |
光纖樣式: |
Multimode Glass |
最遠距離(M): |
100 |
標稱光波長 (nm): |
850 |
發(fā)射器: |
VCSEL |