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100G OTN Muxponder
STN6800-I-M1H2: 1U Pizza Box 100G OTN Muxponder (1 x 100G QSFP28 or 2 x 40G QSFP+ to 1 x 100G CFP)

STN6800-I-M1H2 is high density 1U height 100G OTN Muxponder with 1 port 100G line and 1 port 100G client or 2 ports 40G client, 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-M1H2 is suitable for Metro Access and Metro Aggregation optical transport network.

Overview

STN6800-I-M1H2 is high density 1U height 100G OTN Muxponder with 1 port 100G line and 1 port 100G client or 2 ports 40G client, 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-M1H2 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 100~240V, 47~63Hz

DC: Input -40V~-72V

Power Consumption

125W with coherent CFP

105W with grey CFP

Client Interface

1QSFP28based 100G port (100G,OTU4)

Or 2QSFP+based40G port (40GE,OTU3)

System Interface

1 CFP based 100G port (coherent CFP, 4x25G DWDM CFP, grey CFP)

DWDM/CWDM SFP+ based 10G port

Environment

Working temperature: 0°C~45°C

Storage temperature: -40°C~70°C

Relative humidity: 10%~90%, no condensing


Technical Specification

Features

Description

System Side Signal and Multiplexing Structure

100G grey CFP: OTU4 <-> ODU4

100G grey CFP: OTU4 <-> ODU4 <-> ODU3

100G DWDM CFP: OCh <-> OTU4 <-> ODU4

100G DWDM CFP: OCh <-> OTU4 <-> ODU4 <-> ODU3

Client Side Signal and Mapping Mode

100GE <-> ODU4

OTU4 <-> ODU4

40GE <-> ODU3

OTU3 <-> ODU3

FEC on 100G Port

100G OTU4: G.709 Regular FEC

100G coherent OCh: Soft-Decision FEC

In-band DCN Management

GCC0 on OTU4

GCC1 or GCC2 or GCC1+2 on ODU4

GCC0 on OTU3

GCC1 or GCC2 or GCC1+2 on ODU3

Out-band DCN Management

Management Ethernet port

Network Management System

SNMP based NMS


Applications


1. Point to Point




2. Point to Point with Regeneration





3. Line Side Protection with OLP