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6
Solutions for Optical Access Network
(a) Point to Point
(b) Curb Switch
(c) PON
Curb switch
CO
CO
CO
N subscribers
L km
L km
L km
Passive
optical
splitter
N subscribers
8. WWW.FIBERHOMEGROUP.COM
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Overview of Access Network: FTTX
CO Home
Curb Build
OLT
ONU
NT
FTTH
FTTB+LAN
FTTC+DSL
SNI UNI
Fiber To The Home
Fiber To The Build LAN
Fiber To The Curb xDSL
NT
ONU
ONU
FTTC+EoC
Fiber To The Curb EoC
NT
ONU
NT
FTTB+WLAN
ONU
WLAN
Fiber To The Build
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9
What is PON?
PON: Passive Optical Network
PON architecture: Passive optical network featuring one-to-multiple-point;
• Optical Line Terminal (OLT)
• Optical Network Unit (ONU)
• Optical Distribution Network (ODN).
Passive Optical
Splitter
Optical Network
Unit
Passive Optical Network
Optical Line
Terminal
Optical
Network Termination
.
.
.
.
.
.
.
.
.
.
.
.
PSTN
Internet
IPTV
11. WWW.FIBERHOMEGROUP.COM
PON advantages
shared infrastructure translates to lower cost per customer
☻ minimal number of optical transceivers
☻ feeder fiber and transceiver costs divided by N customers
☻ greenfield per-customer cost similar to UTP
passive splitters translate to lower cost
☻ can be installed anywhere
☻ no power needed
☻ essentially unlimited MTBF
fiber data-rates can be upgraded as technology improves
☻ initially 155 Mbps
☻ then 622 Mbps
☻ now 1.25 Gbps
☻ soon 2.5 Gbps and higher
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12
Why GPON?
GPON supports :
l Triple-play service
£ HDTV:
£ Data:
£ Video Conference:
GPON is the choice of large carriers in the international market.
<1Mbps 3M 8M 25M 2.5G
ADSL/ADSL2+
Copper Based
VDSL / ADSL2+
Copper Based
PON
Fiber Based
2002 2003 2006 2010
Time
Internet
Video conference
Remote control
Access
Technology
Service
requirement
s
VoD
HDTV
Game
Live TV
VoD
HDTV
<3km <2km <1km ~20km
Coverage
diameter
High-bandwidth up to 1.25Gbps/2.5Gbps
Long-reach up to 20km
15. WWW.FIBERHOMEGROUP.COM
14
ITU-T G.984.3
• Specifications of TC layer in the GPON
system
• GTC multiplexing architecture and
protocol stack
• GTC frame
• ONU registration and activation
• DBA specifications
• Alarms and performance
ITU-T G-984.1/2/3/4
Simple development process
Powerful compatibility
ITU-T G.984.1
• Parameter description of GPON
network
• Requirements of protection switch-
over networking
GPON Standards
ITU-T G.984.4
• OMCI message format
• OMCI device management frame
• OMCI working principle
ITU-T G.984.2
• Specifications of ODN parameters
• Specifications of 2.488Gbps downstream optical
port
• Specifications of 1.244Gbps upstream optical port
• Overhead allocation at physical layer
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15
WDM
ONU/ONT
NE
WDM
OLT
NE
Service node
Optical
splitter
T reference point
V reference point
R/S S/R
ODN
UNI SNI
IFpon IFpon
WDM
ONU/ONT
GPON Network Model Reference
☻ ONU Optical Network Unit
☻ ONT Optical Network Terminal
☻ ODN Optical Distribution Network
☻ OLT Optical Line Terminal
☻ WDM Wavelength Division Multiplex Module
☻ NE Network Element
☻ SNI Service Node Interface
☻ UNI User Network Interface
17. WWW.FIBERHOMEGROUP.COM
16
Basic Performance Parameters
Upstream Rate
(Gbps)
Downstream Rate
(Gbps)
1.24416 2.48832
Maximum Reach Distance
(km)
logical 60
physical 20
differential 20
Split Ratio:
1:64/1:128
ONU OLT
ONU
Maximum differential
distance
between the farthest and the nearest
ONU
s
from the OLT: 20km
Logical reach : 60 km
Logical split ratio: 128
•Ranging based on
synchronous framing
•8 kHz clock transport
or recovery
•Survivability using
PST bytes
•Security based on
encryption
UNI SNI
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17
GPON Principle---Data Multiplexing
GPON adopts Wavelength Division Multiplexing (WDM) technology,
facilitating bi-direction communication over a single fiber.
To separate upstream/downstream signals of multiple users over a single
fiber, GPON adopts two multiplexing mechanisms:
l In downstream direction, data packets are transmitted in a broadcast
manner;
l In upstream direction, data packets are transmitted in a TDMA manner
OLT
ONU/ONT
1490nm
1310nm
ODN
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20
Ranging
☻ OLT obtains the Round Trip Delay (RTD) through ranging process,
then specifies suitable Equalization Delay (EqD) so as to avoid
occurrence of collision on optical splitters.
☻ To acquire the serial number and ranging, OLT needs open a
window, that is, Quiet Zone, and pauses upstream transmitting
channels on other ONUs.
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DBA
☻ What is DBA?
l DBA, Dynamic Bandwidth Assignment
☻ Why DBA?
l It enhances the uplink bandwidth utilization of PON ports.
l More users can be added on a PON port.
l Users can enjoy higher-bandwidth services, especially those
requiring comparatively greater change in terms of the bandwidth.
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22
DBA algorithm
logic
DBA report
BW Map
Time slot
T-CONT
T-CONT
T-CONT
Scheduler
ONU
OLT
Control
platform
Data
platform
DBA Working Principle
☻ DBA block in the OLT constantly collects information from DBA reports, and sends the algorithm result in the
form of BW Map to ONUs .
☻ Based on the BW Map, each ONU sends upstream burst data on time slots specified to themselves and utilizes
the upstream bandwidth.
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23
T-CONT Bandwidth Terms
☻ Transmission Containers (T-CONTs): it dynamically receives grants delivered by OLT. T-CONTs
are used for the management of upstream bandwidth allocation in the PON section of the
Transmission Convergence layer. T-CONTs are primarily used to improve the upstream
bandwidth use on the PON.
☻ T-CONT BW type falls into FB, AB, NAB, and BE.
☻ Five T-CONT types: Type1, Type2, Type3, Type4, and Type5.
25. WWW.FIBERHOMEGROUP.COM
24
IFpon
O
N
U
O
N
U
O
N
U
T-CONT Port
T-CONT
Port
Port
T-CONT
T-CONT
Port
Port
Port
Port
Port
ONU-ID
identifies
ONUs
Alloc-IDs identifies
T-CONTs
Port-ID
identifies GEM
ports
GPON Multiplexing Architecture
☻ GEM Port: the minimum unit for carrying
services.
☻ T-CONT: Transmission Containers is a kind
of buffer that carries services. It is mainly
used to transmit upstream data units. T-
CONT is introduced to realize the dynamic
bandwidth assignment of the upstream
bandwidth, so as to enhance the utilization
of the line.
☻ IF pon: GPON interface.
☻ Based on the mapping scheme, service
traffic is carried to different GEM ports and
then to different T-CONTs. The mapping
between the GEM port and the T-CONT is
flexible. A GEM port can correspond to a T-
CONT; or multiple GEM Ports can
correspond to the same T-CONT.
☻ A GPON interface of an ONU contains one
or multiple T-CONTs.
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26
Physical Control Block Downstream
(PCBd)
Payload
AllocID Start End AllocID Start End
1 100 200 2 300 500
T-CONT0
(ONT 1)
T-CONT 0
(ONT 2)
Slot
100
Slot
200
Slot
300
Slot
500
PLOu PLOAMu PLSu DBRu X Payload x DBRu Y Payload y
Upstream
Bandwidth Map
125us
Downstream Framing
Upstream Framing
OLT
ONT 0
ONT 63
GPON Frame Structure
28. WWW.FIBERHOMEGROUP.COM
27
GEM
Payload
CRC
PTI
Port ID
PLI
GEM Frame
Ethernet Packet
DA
SFD
Preamble
Inter packet gap
SA
LengthType
MAC client data
FEC
EOF
5 bytes
Mapping of Ethernet Service in GPON
☻ GPON system resolves Ethernet frames and then directly maps the data of
frames into the GEM Payload.
☻ GEM frames automatically encapsulate header information.
☻ Mapping format is clear and it is easy for devices to support this mapping. It
also boasts good compatibility.
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TDM/E
1 TDM/E1 data Payload
TDM fragment
HEC
PTI
Port ID
PLI
GEM Frame
Ingress buffer
TDM Buffer
Mapping of TDM Service in GPON
☻ TDM frames are buffered and queued as they arrive, then TDM data is multiplexed
in to fixed-length GEM frames for transmission.
☻ This scheme does not vary TDM services but transmit TDM services
transparently.
☻ Featuring fixed length, GEM frames benefits the transmission of TDM services
31. WWW.FIBERHOMEGROUP.COM
30
GPON Management
☻ OAM message at the physical layer falls into three types:
Embedded OAM, PLOAM and OMCI .
l The embedded OAM and PLOAM channels manage the functions of the PMD and
the GTC layers. The OMCI provides a uniform system of managing higher (service
defining) layers.
l The embedded OAM channel is provided by field-formatted information (such as
BW Map,DBRu) in the header of the GTC frame. The functions that use this
channel include: bandwidth granting, Dynamic Bandwidth Assignment signalling
and so on.
l The OMCI channel is used to manage the service defining layers that lay above the
GTC.
37. WWW.FIBERHOMEGROUP.COM
36
AN5116_06B Overview
☻ The AN5116_06B is a gigabit-capable passive optical network access
product of FiberHome.
☻ The AN5116_06B provides rich network applications
l Fiber to the home (FTTH)
l Fiber to the building (FTTB)
l Fiber to the curb (FTTC)
l Time division multiplexing (TDM) private line interconnection.
l Support compatible GPON/EPON , NOT only pure GPON OLT
38. WWW.FIBERHOMEGROUP.COM
AN5116-06B EPON/GPON OLT Platform
Object: support compatible GPON/EPON platform, NOT only pure EPON or pure GPON OLT
Same core switch card and uniform EMS Platform. Only PON
cards require being replaced when changing to other PON
platform. No need for other cards or modules!!
FiberHome
PDP
2200mm/2600mm
AN5116-06B
•10G backplane & 10G bus
•1T core switch capacity
•1+1 core switch card redundancy
•1+1 uplink card redundancy
•Max 4*10GE+4*GE uplink ports
•Max 12*GE uplink ports
•32E1/ STM-1 uplink ports for TDM
•8*EPON/GPON ports per card
•External environment monitoring
dry contact
•Max 8192 subscribers per subrack
•Universal EMS platform to manage
GPON, EPON, 10GEPON
Advanced Features
Support
GPON service/
and GPON ONU
Support
EPON service/
and EPON ONU
•Customer can choose which technology
or service they prefer!!
AN5116-06B
AN5116-06B
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39. WWW.FIBERHOMEGROUP.COM
AN5116-06B Layout Description
Item Description Max Remark
HSWA Compatible core SW card 2 (1+1) Support both
GPON & EPON
GC4B GPON service card 16 4 PON ports
per card
EC4B EPON service card 16 4 PON ports
per card
EC8B EPON service card 16 8 PON ports
per card
GC8B GPON service card 16 8 PON ports
per card
C155A 2*155M(o) uplink card 16 2 155M(o)
ports per card
PUBA Dry contact card 1 Support voice
and dry
contact
HU1A 10G uplink card 2 (1+1) 1*10GE+4GE
HU2A 10G uplink card 2 (1+1) 2*10GE+2GE
GU6F GE optical uplink card 2 (1+1) 6GE(O)
GU6E GE electrical uplink card 2 (1+1) 6GE(E)
PUBA
C155A
GC4B
GC4B
EC4B
EC8B
EC4B
GC8B
GC8B
GC4B
GC4B
HSWA
HSWA
HU1A
HU2A
FiberHome AN5116-06B
Support both GPON and EPON
3 fans at the top of subrack
GPON / EPON service card can be compatible
run in the same subrack
Uplink card with
XFP/SFP modules
PUBA and CE1B can
be put in any slot
Support up to 8 ports per card
1 2 3 4 5 6 7 8 9 10 11
19
12 13 14 15 16 17 18 20
38
40. WWW.FIBERHOMEGROUP.COM
OLT Reliability
•3 fans per OLT, any one of them fails to work won’t affect
the whole system normal operation.
•Core switch card redundancy, any one of them fails to
work won’t affect the whole system normal operation.
•2 DC power inputs for 1+1
redundancy. Any one of them fails
to work won’t affect the whole
system normal operation.
•In-board PON ports protection for fiber redundancy
•Out-board PON ports protection for fiber redundancy
Type B
Type A
•2 uplink card support 1+1 protection for cards and
ports.
Trunk/RSTP/LACP are supported.
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41. WWW.FIBERHOMEGROUP.COM
AN5516-06 Compact OLT
Technical Parameters
Dimension (mm): 480W/230H/265.9D
Slots quantity: 10
Service Slot: 6
Switch Cpacity:1T
Max PON ports: 48 PON ports
Capacity(Per subrack): support max 3072
ONU users
GPON/EPON uniform platform
Uplink interfaces: GE/10GE/E1/STM-1
Uplink Capacity: 40G
MAC address capacity: 32k
Max Multicast Channels: 32k
All service cards compatible with
AN5116-06B OLT
Service slots
Service slots
Service slots
Service slots
Service slots
Service slots
Control card slots
Control card slots
Uplink slot Uplink slot
CIO
PWR PWR
F
A
N
AN5516-06 Layout
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AN5116-06B System Architecture
4*GE /4*10GE uplink
GPBC
Gigabit
Ethernet
Switchin
g Fabric
GPBC
GPBC
10GE
10GE
SCU
10GE
Self-design
GMAC
GPBC Line Card
GPON
Optical Module
GPON
Optical Module
•10 GE bus between the
GPON board and SCU
GPBC
GPBC
…
1 T backplane
1、 calculation for GE service slot :
12.5G(10G bus)*16*2(Bidirectional)*2(backup)=800G
2、calculation for Uplink slot:
12.5G(10G bus)*2(port)*2(GIU board)*2(Bidirectional)*2(backup)=200G
Total:800+200=1000G
400 Gbps switch fabric
(16(slots)*10(GE)+20(GE)*2(slot))*2 =400GE
44. WWW.FIBERHOMEGROUP.COM
Rich series SFU/SBU Type ONU
AN5006 series
EPON ONU
AN5506 series
GPON ONU
ONU Item GE Port FE Port POTS
Port
E1
Port
CATV
Port
USB
Port
Wifi
Port
Type
AN5006-02A 1 / / / / / / EPON
AN5006-03 / 4 / / / / / EPON
AN5006-03W / 4 / / / / / EPON
AN5006-04 / 4 2 / Optional / Optional EPON
AN5506-04A 4FE or 4GE / / / / / GPON
AN5506-04B / 4 2 / / / / GPON
AN5506-04C / 4 2 / 1 / / GPON
AN5506-04F / 4 2 / / 1 1 GPON
AN5506-04G / 4 2 / 1 1 1 GPON
Outdoor ONU
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45. WWW.FIBERHOMEGROUP.COM
GPON SFU ONU Description
AN5506-01-A AN5506-04-B AN5506-04-C AN5506-04-F AN5506-04-G
Application Type Indoor Indoor Indoor Indoor Indoor
Dimensions
(W×D×H mm)
129×117×35 250×150×35 250×150×35 290×150×35 290×150×35
Chassis weight
(Fully Loaded)
0.3 kg 0.5 kg 0.65 kg 0.65 kg 0.65 kg
Service Interface 1GE 4FE+2POTS 4FE+2POTS+CATV
4FE+2POTS+WiFi+
USB
4FE+2POTS+CATV+
WiFi+USB
Uplink Interface 1 GPON port 1 GPON port 1 GPON port 1 GPON port 1 GPON port
Power
Consumption
5 W 8 W 8.8 W 15 W 15 W
Power Supply DC12V (attached DC12V--AC220V convertor)
Optical
Characteristic
Optical Fiber: G.652/G.657 Single Core
Connector: SC/UPC
Upstream/Downstream data rate: 1.244G/2.488G
Max Reach: 20km
Wavelength: TX 1310nm/RX 1490nm (1550nm)
IEEE 802.11/b/g/n
Environment
Requirement
Operating temperature -15℃~50℃(-40℃~75℃ for Outdoor)
Storage temperature -30℃~65℃
Ambient humidity 5%~95%
Backup Battery
Capacity
Support 2~8 Hours
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46. WWW.FIBERHOMEGROUP.COM
GPON MDU ONU Description
AN5506-06 GPON MDU ONU
•AN5506-07 GPON MDU ONU
•AN5506-09 GPON MDU ONU
•AN5506-10 GPON MDU ONU
AN5506-06 AN5506-07 AN5506-09 AN5506-10
Dimensions
(W×D×H mm)
440×190×44.5
440×190×44.5 250×150×35 440×190×44.5
Chassis weight
(Fully Loaded)
4 kg 4 kg 3 kg 4 kg
Service Interface 16FE+4E1 16FE+(16POTS) 8FE 24FE+(24POTS)
Uplink Interface
1 or 2 GPON
port
1 GPON port 1 GPON port 1 or 2 GPON port
Power Consumption 32 W 38 W 10 W 46 W
Power Supply DC48V /AC220V
Optical Characteristic
Optical Fiber: G.652/G.657 Single Core
Connector: SC/UPC
Upstream/Downstream data rate: 1.244G/2.488G
Max Reach: 20km
Wavelength: TX 1310nm/RX 1490nm (1550nm)
Environment
Requirement
Operating temperature -30℃~55℃
Storage temperature -30℃~65℃
Ambient humidity 5%~95%
Backup Battery
Capacity
Support 2~8 Hours
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47. WWW.FIBERHOMEGROUP.COM
xPON MDU ONU Description
AN5006-16
AN5006-20
AN5006-16 AN5006-20
Dimensions (W×D×H mm) 480×379×622 480×250×89
Chassis weight
(Fully Loaded)
30kg 8kg
Capacity
(Per subrack)
Support max 512 users Support max 256 users
Service
max 512 ADSL2+ users
max 384 VDLS2 user
max 512 POTS users
max 256 POTS users
max 128 ADSL2+ users
max 96 VDLS2 user
max 64 Ethernet users
max 16 E1 users
Uplink Interface
xPON port with 1+1
GE uplink
xPON port with 1+1
GE uplink
Power Consumption (full
configured)
560W 150W
Power Supply DC -48V/ AC 220V dual modules
Optical Characteristic
Optical Fiber: G.652/G.657 Single Core
Connector: SC/UPC
Upstream/Downstream data rate: 1.25G/1.25G
for EPON and 1.244G/2.488G for GPON
Max Reach: 20km
Wavelength: TX 1310nm/RX 1490nm (1550nm)
Environment Requirement
Operating temperature -30℃~55℃
Storage temperature -30℃~65℃
Ambient humidity 5%~95%
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48. WWW.FIBERHOMEGROUP.COM
FiberHome Advocates xPON over Same Platform
PUBA
CE1B
GC4B
EC4B
EC8B
XE2A
GC8B
GP8F
HSWA
HSWA
HU1A
HU2A
FiberHome AN5116-06B
Support both GPON and EPON
10GEPON on OLT
GPON / EPON service card can
be run in the same subrack
Support up to 8 ports per card
1 2 3 4 5 6 7 8 9 10 11
19
12 13 14 15 16 17 18 20
Compatible xPON OLT Platform Compatible xPON MDU Platform
•By replacing uplink cards, MDU can
switch to another PON technology
Platform
•No waste when upgrading or change
MDU to another PON technology
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49. WWW.FIBERHOMEGROUP.COM
ONU/ONT Improvement
①Modules Integration ②Integrated Backup
Battery
③Low Cost Outdoor ONU ④Manufacture Ourselves
•SOC with PON/IAD
DPS plus 4FE;
•Chipset with NP
•Last 4~8 hours
•No service
interruption
•CATV/WIFI outdoor
application;
•Low cost
•PON TX/RX
•EPON IC
•Other passive
module
•Large volume
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51. WWW.FIBERHOMEGROUP.COM
Moving to Integrated Service Providers
Internet Service
•Up to 100M
bandwidth per
user
•Using
ADSL/VDSL/LAN/
PON methods
•Dynamic sharing
adjustment among
multiple users
Video Service
•Support HDTV
/SDTV
•Support Multicast
•Support VoD
•QoS scheme to
guarantee service
quality
•Security &
Controllable
access
Voice Service
•Support PSTN
legacy voice
•Support NGN for
MGCP/H.248/SIP
•FAX
•QoS scheme to
guarantee service
quality
•Compatible with
different voice
core platform
venders
Mobile Service
•Support GSM/3G
backhaul
•Various
interfaces for
BTS/NODE-B
•Support
WIFI/Bluetooth for
Home Network
•Precise
synchronization
•QoS scheme to
guarantee service
quality
FULL SERVICE
Mobile Core
NGN
FE/E1/POTS
Mobile Backhaul
FTTH Triple Play
FTTB Triple Play
FTTC Solution
Home Network
SFU
ONU
GE/FE/E1
LAN
Copper
GE/FE/POTS/WIFI/
Bluetooth/USB
SBU
ONU
MDU OLT
PSTN
TDM
Internet
Video/VoD
GSM/3G
ODN
PSTN
SS/IMS
Metro-E
IPTV/CATV
Transmission
Network
RG
MDU
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51
AAA Server
IP Core
OLT Softswitch
Internet
IPTV / CATV Server
Middleware
NMS
IPTV/
CATV
Voice/
ISDN
IP
Voice
E1
FE
Splitter
MOBILE
Multiple Service Solution Based on GPON
MDU
HSI
FE / RF
SBU
BUSINESS
PBX
E1/T1
FE
HSI
RESIDENT
SBU
Backhaul
POTS
For Resident:
Flexible service mapping and VLAN planning
For Business:
Hierarchical QoS
High reliability and security
For Mobile:
TDM CESoP for 2G/3G backhaul
Clock synchronization solution
Global
Eyes
53. WWW.FIBERHOMEGROUP.COM
52
Copper
MDU
ONU 1
ONU 2
ONU 4
ONU 3
ONU 5
ONU 1
ONU 2
ONU 3
ONU 5
ONU 6
ONU 4
ONU 7
SP 1 users
SP2 Users
SP1 Users
•Alternative Service Providers
•Alternative Service Packages
•Flexible Services
•Security Mechanism using L2/L3
•technologies
•Shared Infrastructure Cost by all SPs
•Combined FTTB/C & FTTH Solution
Optical Splitter
SP 2 users
Internet
Internet
Telephone
Internet
Telephone
IPTV
PSTN
SS/IMS
IPTV
OLT
SP 1
SP 2
Wholesale Solution
56. WWW.FIBERHOMEGROUP.COM
HFC Access Network Improvement Solution
Optical Node
Optical Node
Optical Node
Head End
Bi-amplifier
Bi-amplifier
Bi-amplifier
Bi-amplifier
Coaxial Cable
1550nm/
1310nm
OLT
1st Optical Splitter
2nd Optical Splitter
CATV
PSTN
Internet
EoC
MDU
Existing E-side
Cable
Replace/ Improve coaxial cable with Optical
Fiber Network
Ethernet over Coaxial/ Optical
Fiber Access
Transmission
Network
10~20km 1~2km ~100m
MDU
RG
ONU
•For gray field, enhance
access network
bidirectional capability by
combining HFC and FTTx
network using EoC
convertors.
•Integrate more services
•Increase network
management ability
•For green field, take best
advantage of existing
backbone optical fiber
resource and deploy new
optical fiber for the last
mile and develop FTTx
PON for emerging
subscribers.
•Improve bandwidth for
both downstream &
upstream
•Decrease OPEX cost
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57. WWW.FIBERHOMEGROUP.COM
FiberHome FTTx Global Market
In china before 2009 FiberHome FTTx PON
Market Share ranking No.1 , which take 40%
market share.After 2009 FiberHome Marketing
share is ranking No.2.
•1st EPON pilot project in
Malaysia for TM
•The only GPON vender for TM,
more than 70,000 lines GPON
equipments have be deployed
by the end March, 2010.
•FiberHome-SENKO
Australia Pilot EPON
Project covers
FTTH,FTTB+LAN
Application
•Australian NBN program
on going
•First commercial
FTTH project in
Argentina with BVC
Which this project
covered 12%
subscribers for
Argentina Davitel
Cable TV operators
•Strategy Partner with
Ecuador TVcable on
FTTH deployment
FTTH Project in
Bolivia with COTAS
FTTH deployment
in Uganda
FTTH deployment
in Norway
•The first and biggest
EPON supplier for
Indian BSNL, which
•One of the biggest
passive part supplier
in BSNL GPON project
•One of the biggest
PON TX/RX module
supplier in Japan
FTTH deployment
in Nigeria
Pilot FTTH Project
in Italy EPON project for TCT
(TeleCom Tehran).
GPON pilot projects
will be deployed
soon.
FTTH project in
Russia in 2007
First commercial FTTH
project in Belarus in 2006
•EPON project for
CAT North,
•4 GPON projects for
TOT
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58. WWW.FIBERHOMEGROUP.COM
FiberHome FTTx Market in China
China Telecom
China Unicom
海南
黑龙江
吉林
辽宁
河北
山东
福建
江西
安徽
湖北
湖南
广东
广西
河南
山西
内蒙古
陕西
宁夏
甘肃
青海
四川
贵州
云南
西藏
新疆
江苏
浙江
FiberHome is the one of biggest mainstream
suppliers in FTTX industry
Marketing share: over 30%
Marketing share: over 30% till 2010 Q4
More than 17,320,000 lines PON equipments
have be deployed in CTC access network.
Provided 7,500,000 lines EPON equipments
and 50,000 lines GPON equipments to CTC
in 2010
More than 11,800,000 lines PON
equipments have be deployed in CUC
access network.
Provided 4,500,000 lines EPON
equipments and 200,000 lines GPON
equipments to CUC in 2010
China Mobile
Marketing share: over 25% till 2010 Q4,
rank 1
More than 960,000 lines PON equipments
have be deployed in CM access network.
Provided 220,000 lines EPON
equipments and 420,000 lines GPON
equipments to CM in 2010
57
59. WWW.FIBERHOMEGROUP.COM
58
HSBB Case Share
☻ HSBB is Malaysia’s biggest NGN project and Fiberhome is the strategic partner for
HSBB.
☻ We are the sole green field national backbone supplier for DWDM, SDH& OXC.
☻ FiberHome is one of the largest deployment FTTH provider in TM.
MENARA TM
61. WWW.FIBERHOMEGROUP.COM
India BSNL EPON Large Distribution Purchase
Program
•Total EPON Solution covers:
-OLT : over 100 sets AN5116-06B
-ONT: over 80k
-DDN:
-OSP and related facility
-EMS (ANM2000)
FiberHome
OTHERS
BSNL EPON market share
In India Site Installation
60
62. WWW.FIBERHOMEGROUP.COM
61
Thailand FreeInternet GPON Project
FreeInternet is a newly developing residence network operator in
Thailand,because of the deploying of FTTH technology,the company
provides highly quality broadband access for business user.Meantime,the
company also provides competitive IPTV services.
Now,FreeInternet is concentrating on developping FTTH services in main
city of Thailand, like Bangkok,Chiang Mai,Pattaya.In initial
project,FiberHome provides over 5000 lines GPON equipments for the
user's broadband access,VoIP,IPTV and so on.