Installation Instructions
Table Of Contents
- Contents
- Chapter 1: Introduction
- Chapter 2: New in this document
- Chapter 3: Safety and equipment care information
- Chapter 4: Supported transceiver, BOCs, and DACs information
- Chapter 5: Optical routing design
- Chapter 6: SFP
- Chapter 7: SFP+
- SFP+ transceivers
- SFP+ specifications
- SFP+ labels
- General SFP+ specifications
- Supported SFP+ transceivers
- 10GBASE-T SFP+ transceiver
- 10GBASE-LR/LW SFP+ specifications
- 10GBASE-LR/LW SFP+ high temperature (-5 °C to +85 °C) specifications
- 10GBASE-ER/EW SFP+ specifications
- 10GBASE-SR/SW SFP+ specifications
- 10GBASE-SR/SW SFP+ high temperature (0 °C to +85 °C) specifications
- 10GBASE-ZR/ZW SFP+ specifications
- 10GBASE-CX specifications
- 10GBASE CWDM DDI SFP+ (40 km) specifications
- 10GBASE-LRM SFP+ specifications
- 10GBASE CWDM DDI SFP+ (70 km) specifications
- 10GBASE-BX SFP+ specifications
- Chapter 8: QSFP+
- Chapter 9: QSFP28
- Chapter 10: End of sale transceivers and cables
- Chapter 11: Translations of safety messages
- Class A electromagnetic interference warning statement
- Electrostatic discharge warning statement
- Laser eye safety danger statement
- Laser eye safety connector inspection danger statement
- Connector cleaning safety danger statement
- Optical fiber damage warning statement
- Optical fiber connector damage warning statement
- SFP damage warning statement
- Chapter 12: Resources
- Glossary
Chapter 5: Optical routing design
Optical routing design
The Avaya optical routing system uses coarse wavelength division multiplexing (CWDM) in a grid of
eight optical wavelengths. Use the Avaya optical routing system to maximize bandwidth on a single
optical fiber. This chapter provides optical routing system information that you can use to help
design your network.
Optical routing system components
Small Form Factor Pluggable (SFP) transceivers transmit optical signals from Gigabit Ethernet ports
to multiplexers in a passive optical shelf.
Multiplexers combine multiple wavelengths traveling on different fibers onto a single fiber. At the
receiver end of the link, demultiplexers separate the wavelengths and route them to different fibers,
which terminate at separate CWDM devices. The following figure shows multiplexer and
demultiplexer operations.
Important:
For clarity, the following figure shows a single fiber link with signals traveling in one direction
only. A duplex connection requires communication in the reverse direction as well.
Figure 3: Wavelength division multiplexing
May 2017 Installing Transceivers and Optical Components on VOSS 24
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