02 ZXONE 9700 Product Introduction_20170510_EN

ZXONE 9700 Product Introduction

Author: ZTE 10 May 2017

Contents

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OTN Production Series Cabinet Accessories Introductio Introduction n Boards Introductio Introduction n

ZTE OTN Product Series Smart access/Convergence

Metro/Core/backbone Transmission

Smart Backbone

ZXONE 9700 Packet OTN Product

ZXMP M721

ZXONE 9700 S1/S2 ZXMPM721 DX61/62/63： •

Compact or Dense WDM

•

Easy installation

•

In metro-edge

•

4.4T/9.2T crossing

•

In Metro convergence

ZXONE 9700 S3/S6 •

14.4T/28.8T crossing

•

In core layer or

or metro access

convergence layer

ZXONE 8700 100G OTN Product

ZXONE 8700 CX21/31/51/71 ZXMP M721 CX66： •

•

1.4T/2.8T/3.2T /9.4TODUk crossing

•

100G access and convergence

•

In metro convergence, core layer or

840G crossing

•

19 inch rack

•

In metro convergence or metroedge

backbone layer

Packet cross-connection subrack

Slot 1

Slot 2

Control Unit

Slot 3

Slot 4

GMPLS control Slot 5 Slot 7

Slot 6

ODUk Switch Core ODU0

ODU1

ODU2

Slot 8

ODU3

Slot 9

Slot 10

Slot 11

Slot 12

Slot 13

Slot 14

Slot 15

Power Distribution Unit

NX41-19 subrack

NX41-19 subrack

S1 subrack

S1 subrack

SNP Board



Manages and control NEs.



Saves NE configurations.



Up to 127 sub-frames can be managed.



Collects and reports alarm and performance events of

all boards. 

Manages automatic protection switchover information,

and controls automatic protection switchover. 

Supports WASON configuration to implement the

intelligent network control and optimization function. 

1+1 hot standby function

EIC board



Provides the NX41 sub-frame with the external interface

function 

Supports drive signal output function of the cabinet alarm

rings and alarm indicators. 

Support alarm input/output interface function of the

1channel-13 dry contact. 

Supports the access function of the EMS, IP telephone, and

debugging device.

SOSCB Board



Transmits ECC information, orderwire information, user

information, and control information through the switchover between layer 2 and layer 3

SEOBA & SEOPA Board



Inserts the EDFA in the optical transmission link to amplify signals to

increase transmission power and extend the transmission distance 

The operating principle of the M3SEOPA is identical to that of the

M3SEOBA board

OMU & ODU Board

OMU & ODU Board

EOPM4 Board



Monitors the wavelength, optical power,

and optical signal noise ratio of channel1/4/8 optical signals in real time. 

Monitors wavelength, optical power,

and optical signal noise ratio of optical signals of the systems (100 Gbit/s, 50 GHz) in real time. 

Supports C-band and CE-band optical

signals.

CCP Board



Implements the sub-frame communication connection, and

control and management functions of the power/interface boards 

Inputs, sends, and selects the clock on a single-layer

subrack service board 

Layer-2 switching function



Supports the Multiple Spanning Tree Protocol (MSTP)

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Monitors the temperature of the board



1+1 hot standby function

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PWE Board



Filters -48 V input power (on PWE)

  Outputs 48 V power to supply power for boards on the



 –

subrack ( on PWE)  Inputs DC power (-38 V to -72 V), and outputs DC power (-



48 V/60 V) (on PWRL) 

Supports lightning and surge protection at the power input

end and instantaneous status suppression 

Supports the 1+1 hot backup function to ensure stable

power input

CCPK Board



Implements the sub-frame communication connection, and

control and management functions of the power/interface boards 

Inputs, sends, and selects the clock on a single-layer

subrack service board 

Layer-2 switching function



Supports the Multiple Spanning Tree Protocol (MSTP)



Monitors the temperature of the board



1+1 hot standby function

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Implements board configuration and management, and

alarm/performance data collection ( on CCPK) 

Provides an optical supervisory channel interface for inter-

NE communication

PSK Board

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Implements the cross function with the minimum switching

granularity being ODU0 

Provide the maximum cross-connect capacity of 1.2 Tbit/s

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The S1 subrack supports 2+1 redundancy backup

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Detects and reports the board temperature



Verifies errors of signals, and detects the performance of

signal traffic

PSV Board



Implements cross-connect of VC signals. It is used together

with client-side boards and line-side boards on the subrack 

The maximum VC-4 cross-connect capacity is 200 Gbit/s



Supports redundancy and 1+1 protection for cross-connect

boards 

Supports ODU (ODU1/2) BIP8 bit error count on the PM

segment

L4L×1 Board



Converts OTU signals into the backplane signals that can

be crossed in packet switching mode on the cross board 

Supports GMP convergence and deconvergence between

the ODUk (k=0, 1, 2, 2e, 3, 3e2, or flex) on the backplane side and the OTU4 on the channel side 

Supports overhead processing of services of ODUk (k=0, 1,

2, 2e, 3,3e2, or flex) and OTU4 types 

Tunable in C band



The optical module of the channel side supports the SD-

FEC or HD-FEC

C2K×N Board



Implements service access of N (N=4, 8, 10,12, or 20)

channels at 10 Gbps at the client side 

Supports the STM-64, 10GE-LAN, 10GE-WAN, 10G POS,

FC800, FC1200, OTU2 or OTU2e service type. Service types

can be customized 

Optical signals can be sent to the backplane in ODU2,

ODU2e, or ODUflex format 

Protects services by using the sub-wavelength scheduling

function

C1K×N Board

 Implements service access of N (N=4, 8, or 16) channels at



the client side 

Supports the mapping capacity of 20G



Supports STM 1/STM 4/STM 16, OC3/OC12/OC48, GE,  –

 –

 –

FC100, FC200, FC400, ESCON, DVB-ASI, SDI, 3 G-SDI, HDSDI, CPRI(614.4 M/1228.8 M/2457.6 M/4915.2 M), Infiniband 2.5 G/5 G, OTU1 and FE 

The cross granularity is ODU0/ODU1/ODUflex

Thank you