Home / Products / OTN System / 1U Box OTN / 10G OTN Muxponder
10G OTN Muxponder
STN6800-I-M2X16: 1U Pizza Box 10G OTN Muxponder (16 x 1.25G SFP to 2 x 10G XFP)

STN6800-I-M2X16 is high density 1U 10G OTN Muxponder with two ports 10G and 16 ports low speed anyrate, it adopts the advanced technology and ASIC chip, and it is fully compliant with ITU-T standard, such as G.709, G.798, etc. STN6800-I-M2X16 is suitable for Metro Access and Metro Aggregation optical transport network.

Overview
STN6800-I-M2X16 is high density 1U 10G OTN Muxponder with two ports 10G and 16 ports low speed anyrate, it adopts the advanced technology and ASIC chip, and it is fully compliant with ITU-T standard, such as G.709, G.798, etc. STN6800-I-M2X16 is suitable for Metro Access and Metro Aggregation optical transport network.
Physical Characteristics:

Characteristics

Description

Shelf Type and Dimensions(mm) (W*D*H)

440mm*350mm*44mm

Power Supply

AC: Input 100V~240V, 47~63Hz

DC:Input -40V~-72V

Power Consumption

90W

Client Interface

16 SFP based low speed ports (GE/FE, STM-1/4/16, OC-3/12/48, anyrate low speed)

System Interface

Two XFP based 10G OTU2 ports

Environment

Working temperature: -5°C~50°C

Storage temperature: -40°C~70°C

Relative humidity: 10%~90%, no condensing


Technical Specifications:

Features

Description

System Side Signal and Multiplexing Structure

10G port (WDM XFP): OCh <-> OTU2 <-> ODU2 <-> ODU0 or ODU1 or mixed ODU0/ODU1

10G port (grey XFP): OTU2 <-> ODU2 <-> ODU0 or ODU1 or mixed ODU0/ODU1

Client Side Signal and Mapping Mode

FE/GE (via TTT+GMP) <-> ODU0

STM-1/STM-4/OC-3/OC-12 (via GMP) <-> ODU0

STM-16/OC-48 (via AMP or BMP) <-> ODU1

FEC on 10G Port

Regular FEC (G.709)

I.4 Super FEC (G.975.1)

I.7 Super FEC (G.975.1)

In-band DCN Management

GCC0 on OTU2

GCC1 or GCC2 or GCC1+2 on ODU2

GCC1 or GCC2 or GCC1+2 on ODU1

GCC1 or GCC2 or GCC1+2 on ODU0

Out-band DCN Management

Management Ethernet port

Transmission Protection

SNC/N

SNC/I

Network Management System

SNMP based NMS


Applications

1. point to point scenario



2. Two Stages of Multiplexing (together with M1H10)



3. 10G Ring Application