10GPON Evolution solution

What Is XG(S)-PON?
XG(S)-PON is evolved from the existing GPON technology, the factors promoting the technology evolution to XG(S)-PON are as follows:

Developing services require higher bandwidths and the GPON technology cannot meet bandwidth requirements.
Innovative access technologies on the user side require higher bandwidths and the GPON technology will face bandwidth bottlenecks.
A greater split ratio and a longer transmission distance increase network construction investments.

XG-PON, 10-Gigabit-capable passive optical network, provides asymmetric 10G transmission (Maximum downstream line rate: 9.953 Gbit/s, Maximum upstream line rate: 2.488 Gbit/s ).
XGS-PON, 10-Gigabit-capable symmetric passive optical network, provides symmetric 10G transmission (Maximum downstream line rate: 9.953 Gbit/s, Maximum upstream line rate: 9.953 Gbit/s ).

Application scenario

Application scenario
Network Evolution
XG(S)-PON
Flex-PON

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10G PON Ready for Various Scenarios

Video innovation demands higher bandwidth and better experience. Diversified enterprise services require high bandwidth.

4K/8K Video

Latency: 25ms
Bandwidth: 150 Mbit/s

Cloud VR

Latency: < 8 ms
Bandwidth: > 1 Gbit/s

Game

Latency: < 50 ms
Bandwidth: > 300 Mbit/s

Telemedicine

Latency: < 10 ms
Bandwidth: > 200 Mbit/s

Online Education

Latency: < 20 ms
Bandwidth: > 750 Mbit/s

Safe City

Real-Time AI Monitoring
Upstream Bandwidth: >200 Mbit/s

Network Evolution Overview

XG(S)-PON has the following features to support smooth evolution from a GPON network to a XG(S)-PON network: The XG(S)-PON wavelength planning does not overlap the GPON wavelength planning,therefore, the GPON and XG(S)-PON share the ODN network in the wavelength division multiplexing mode; The OLT platform supports coexistence of GPON service boards and XG(S)-PON service boards; XG(S)-PON and GPON have the same service provisioning and service deployment operations, they can share the NMS and service provisioning system.

No Wavelength Overlap Between GPON and XG(S)-PON

XG(S)-PON Can Co-exists with GPON in the Same ODN

Evolution Solution - Using XG(S)-PON Combo

he PON Combo supports two PON technologies through a combo port. One PON Combo port supports multiple types of ONUs at the same time, implementing hybrid network construction of GPON and XG(S)-PON and smooth evolution from GPON to XG(S)-PON.

The XG(S)-PON combo board works with the XG(S)-PON combo optical module to implement a combo port working in GPON mode and XG(S)-PON mode at the same time.
The XG(S)-PON combo optical module integrates the GPON optical module, XG(S)-PON optical module, and WDM multiplexer to share ODN resources without adding an external WDM multiplexer.
In the upstream direction: After the upstream signal of the ONU enters the XG(S)-PON combo port, the WDM determines whether the signal is a GPON signal or a XG(S)-PON signal according to the wavelength, and then sends the signal to the corresponding channel for processing.
In the downstream direction: After the downstream signal is sent from the OLT XG(S)-PON combo port, the GPON ONU and the XG(S)-PON ONU select the wavelength through the internal wavelength filter to receive the signal.

XG(S)-PON Combo Evolution Solution

Network evolution steps：XG(S)-PON combo service board replace the GPON service board→Cut over the optical fiber into XG(S)-PON combo module→Replace or add a XG(S)-PON OUN. Network evolution newly increasing components: XG(S)-PON combo service board and XG(S)-PON combo module.

GPON FTTx Network

Evolution solution

Evolution Solution - Using Flex-PON

Flex-PON is a flexible PON solution developed by Huawei for GPON and XG(S)-PON. It implements smooth network evolution through the integrated Flex-PON service board.The ports of the Flex-PON service board can work in multiple modes , including: GPON、XG-PON、XGS-PON、GPON&XG-PON Combo、GPON&XGS-PON Combo. The port mode of the Flex-PON service board can be set as required. After the port mode is set, the corresponding ONU can be connected to the optical module that matches the port mode.

Flex-PON Board + GPON + XG(S)-PON/Combo + TWDW-PON

RTU (Right to Use, license) Flex-PON service board Matched optical module Matched ONU

Port Mode	RTU Type	Optical Module Type	ONU Type
GPON	No need	GPON	GPON ONU
XG-PON	XG(S)PON RTU	XG-PON	XG-PON ONU
XGS-PON	XG(S)PON RTU	XGS-PON	XG-PON ONU XGS-PON ONU
XG-PON Combo	XG(S)PON RTU	XG-PON Combo	GPON ONU XG-PON ONU
XGS-PON Combo	XG(S)PON RTU	XGS-PON Combo	GPON ONU XG-PON ONU XGS-PON ONU

The evolution solution must be completed in five steps:

Loading RTU;
Configuring the Flex-PON port mode;
Replace the optical module;
Replacing or adding an ONU;
Configuring Services;

XG(S)-PON Combo,Save Rack Space, Reducing 23% TCO

GPON Board + XGS-PON Board + WDM1r

Flex-PON Board + XG(S)-PON Combo SFP

VR Is Rapidly Developing over Wi-Fi

Giga Access: 10G PON network confirm 200M bandwidth access for VR
300Mbps Home Wi-Fi: Delicate 5 GHz backhaul throughput ↑3 times
Enhanced Algorithm: TCP over dual-band optimization, let RTT 15ms ->7ms VR (game)

Specifications	GPON	10G GPON
Specifications	GPON	XG-PON	XGS-PON
Wavelength	Downstream: 1480-1500 nm Upstream: 1290-1330 nm	Downstream: 1575-1580 nm Upstream: 1260-1280 nm	Downstream: 1575-1580 nm Upstream: 1260-1280 nm
Center wavelength	Downstream: 1490 nm Upstream: 1310 nm	Downstream: 1577 nm Upstream: 1270 nm	Downstream: 1577 nm Upstream: 1270 nm
Maximum Line Rate	Downstream: 2.488 Gbit/s Upstream: 1.244 Gbit/s	Downstream: 9.953 Gbit/s Upstream: 2.488 Gbit/s	Downstream: 9.953 Gbit/s Upstream: 9.953 Gbit/s
Maximum Physical Transmission Distance	60 km NOTE: The physical reach is defined by split ratio, optical module size, and fiber quality.	100 km NOTE: The physical reach is defined by split ratio, optical module size, and fiber quality.	100 km NOTE: The physical reach is defined by split ratio, optical module size, and fiber quality.
Maximum Split Ratio	1:128 NOTE: The actual split ratio depends on the optical module model and fiber distance.	1:256 NOTE: The actual split ratio depends on the optical module model and fiber distance.	1:256 NOTE: The actual split ratio depends on the optical module model and fiber distance.
Interface Board	H901GPHF , H902GPHF , H901GPSF , H902GPSF , H901GPSFE , H902GPHFE	H901XGHD , H901XGSF , H901XGHDE	H901TWED , H902TWHD , H901XSHF , H902XSHF , H902XSHD , H901TWEDE
Combo Board	H902CGHD , H901CGID , H901CGHF , H902CGHF , H901CSHF , H902CSHF , H902CSHD
Flex-PON Board	H901FLHF , H902FLHF , H903FLHF

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GPON 10GPON Evolution solution

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