1. Passive Optical LAN Training, Blueprint 1
Passive Optical LAN Training, Blueprint 1.1: Module 1: System Architecture (Physical)
3HV01415AAAEUNZZA v August 2016

2. Presentation Outline Section 1: Passive Optical LAN: Introduction
Section 2: Passive Optical LAN: OLT Hardware
Section 3: Passive Optical LAN: (A)ONT Hardware
Section 4: Hardware Installation
Section 5: Documentation Set

3. 1
Passive Optical LAN: Introduction

4. POL Blueprint 1.1: 8 Supported Services
FTT Desktop: A standard SME office LAN environment with client/server connectivity. Includes IP phone connectivity.
VOIP/PBX: IP PBX voice services via Power over Ethernet (i.e., VOIP telephony).
High Speed Internet: Enterprise or organization end user access to the internet via the POL network hosted by a 3rd Party RSP (via DHCP, PPP etc).
Surveillance: Capability for connecting IP based surveillance camera(s) for security monitoring. On the GPON uplink side, a centralised coordination and content caching platform (video Media Server cluster) is hosted by the customer.
These services are intended to provide fibre connectivity infrastructure and services for relatively small private subscriber densities for hospitals, hotels, gated communities, transport agencies, militaries, municipals, geographically dispersed installations (e.g., mining towns) and generic small to medium enterprises.
The primary purpose of this training pack is to detail the POL (Passive Optical LAN Service) Blueprint capability and how these are defined in the configuration.
The secondary purpose is to assist the Nokia associated Channel Partners in facilitating these service concepts at customer sites with minimal/no assistance required from Nokia engineering staff.

5. POL Blueprint 1.1: Supported Services (continued)
WiFi Access Point: A service capability for supporting WiFi Access Points and the WiFi Access Controller host. WiFi Access Points can be distributed throughout the SME office, building or outdoor geographic locations with the WiFi controller co-located (in an IT server room for instance)
Security Access Control: This capability is to target all access control security functionality such as card access systems, proximity, keypad, barcode and biometric access. The POL connectivity will be provided for Ethernet/IP controller technology

6. POL Blueprint 1.1: Supported Services (continued)
Public Announcement / Intercom: A capability that supports public announcement (PA) and Intercom systems. The PA system shall be able to do broadcast or p2p (speech) from any terminal to any terminals as well as singular terminal to terminal communications.
Digital Signage: Airport passenger information, electronic advertisement billboard, Municipal/Government Roading Agencies etc providing coordinated updates of user information such as highway congestion messaging and public safety alerts.

7. POL Blueprint 1.1: Temporarily Removed Services
Until the POL BP1.1 supported provisioning system (5571 PCC) can provision the following 2 services, these services are temporarily suspended. Consult Nokia in-country representatives to obtain alternate configuration options (e.g., CLI) if required in the interim.
Multicast (IPTV): A capability for efficient distribution of TV channel offerings, such as Hotel TV facilities. Uses the IGMP Protocol for end customer connection/disconnection to IP multipoint distributed channels.
Analogue Voice: Hosted via Analogue Voice capable ONTs and terminated by an IP-PBX

8. Passive Optical LAN: High Level Topology
WiFi Ctrl
OSP /
Structure Cablings
5520 AMS
ONT
Enterprise
Bldg
VoIP/PBX
ISAM FX
(OLT)
Splitter
Splitter
7750/7450
2.5 Gb/s
ONT
Gov’t
/ Military
1.25 Gb/s
IP/MPLS
WDM
Video Coupler
Splitter
Generic sw,
Airport router /
Transport)
Internet
Security
Servers
SFP ONT RF
Video
EDFA
Residential.
/ SOHO
ONT
3 lambda’s
Hospital
/ Hotel
Upstream Data
ONT
1310nm
Downstream Data
1490nm
Downstream RF Video
RG ONTs
1550nm

9. 2
Passive Optical LAN Hardware: OLT

10. 7360 Hardware: FX-4 Chassis
The FX-4 (NFXS-F) is a 19 inch rack that requires -48v DC ‘A’ and ‘B’ feeds. The 2 x controller cards and 4 LT Line Cards are fitted horizontally :
The 7360 FX will utilise either the FX-4 or FX-8 chassis for this solution. This will host the following:
NT-A master controller card: FANT-F.
NT-A standby controller card: FANT-F.
Network uplink connectivity will be either 1G copper, 1G fibre or 10G fibre in Link Aggregation mode depending on the customer preference.
Line Cards: FGLT-B: 16 PON port Line Cards capable of hosting 128 ONT units per PON; Or conversely the NGLT-C PON port line card that has 8 PON ports. The FGLT-A (16 PON port line card) is ‘end of life’ and the NGLT-B is the lifecycle replacement.
The solution will nominally limit ONT density to 32 ONTs (or less) per PON to simplify the split ratio with respect to power levels and high data speed capacity availability. The OLT is however able to support a split ratio of 128. Split ratios can be discussed via your Nokia in-country representative.
FX-4 Chassis
The FX-4 is a 19 inch rack that requires -48v DC ‘A’ and ‘B’ feeds. The 2 x controller cards and 4 LT Line Cards are fitted horizontally as per above. Has the following features:
100Gbps between LT and NTs
400Gbps between NTs
400Gbps between NTs and NTIO
Universal LT slots
1+1 NT redundancy
NTB and NTIO slot can not be re-used for LT

11. 7360 Hardware: FX-4 Chassis (cont)
Card Cage Area
Fan Unit
Power Unit and Cable Connection Area
Card cage area
The NFXS-F has a pluggable GFC (General Facilities Card), the NGFC-F.
ETSI
Power unit and cable connection area
Fan unit

12. 7360 Hardware: FX-4 Chassis (cont)
AFAN-X and BFAN-X fan units:
4 Fans with Alarm LED
BFAN-X is an intelligent fan unit
The fan plug in unit is designed for forced air cooling in the 7360 ISAM FX-4 equipment practice. It is field replaceable and can be hot-inserted. It contains 4 wide range fans, temperature controller, variable speed fans, and an alarm interface board. It also provides the space and guiding for a field replaceable dust filter.
The Fan unit provides an alarm indication towards the NT in case of failure. One alarm LED is present on the front panel of the Fan unit, to provide a visual indication of fan failure conditions. Therefore the AFAN-X unit provides the following features:
Provides forced air cooling in a 7360 ISAM FX-4 subrack
Contains four wide voltage range, temperature controlled, variable speed fans
Is mounted in the 7360 ISAM FX-4 subrack fan area behind the fan unit cover
Supported nominal voltages: -48Vdc / -60Vdc
Contains the fan control card, which generates a common fan alarm towards the NT cards (via the NGFC-F) in case of fan failure and drives the fan alarm LED.
Is secured to the 7360 ISAM FX-4 subrack with a screw
Is field replaceable and can be hot-inserted
Provides the space and guiding for a field replaceable dust filter
The BFAN-X intelligent fan unit provides the following main improvements:
Contains 4 fans variable speed-fans. The front fan and the rear fan in the same column of the fan tray have the same fan speed.
The fan speed can be controlled in two modes:
The fan speed is defined by the local ambient temperature (measured via temperature sensors on the control board) according to a pre-defined speed versus temperature curve
The fan speed is defined by a worst-case temperature margin of the functional boards which are influenced by the specific fan
In case of fan failure, the active fans are forced either to full speed or to a pre-defined speed if the fan tray is working in the mode where the fan speed is defined by the local ambient temperature

13. 7360 Hardware: FX-8 Chassis
The FX-8 (NFXS-E) is a 19 inch rack that requires -48v DC ‘A’ and ‘B’ feeds. The 2 x controller cards and 8 LT Line Cards are also fitted horizontally :
The 7360 FX will utilise either the FX-4 or FX-8 chassis for this solution. This will host the following:
NT-A master controller card: FANT-F.
NT-A standby controller card: FANT-F.
Network uplink connectivity will be either 1G copper, 1G fibre or 10G fibre in Link Aggregation mode depending on the customer preference.
Line Cards: FGLT-B: 16 PON port Line Cards capable of hosting 128 ONT units per PON (max); Or conversely the NGLT-C PON port line card that has 8 PON ports. The FGLT-B is the lifecycle replacement for the FGLT-A which is ‘end of life’.
The solution will nominally limit ONT density to 32 ONTs or less per PON to simplify the split ratio with respect to power levels and optimum data speed throughput.
FX-8 Chassis
The FX-8 is a 19 inch rack that requires -48v DC ‘A’ and ‘B’ feeds. The 2 x controller cards and 8 LT Line Cards are fitted horizontally as displayed above. Has the following features:
100Gbps between LT and NTs
400Gbps between NTs
400Gbps between NTs and NTIO
Universal LT slots
1+1 NT redundancy
NTB and NTIO slot can not be re-used for LT

14. 7360 Hardware: FX-8 Chassis (cont)
Card Cage Area
Fan Unit
Power Unit and Cable Connection Area (ETSI)
Card cage area
The NFXS-E shelf has a pluggable GFC (General Facilities Card), the NGFC-E.
ETSI
Power unit and cable connection area
Fan unit

15. 7360 Hardware: FX-8 Chassis (cont)
AFAN-E and BFAN-E fan units:
6 Fans with Alarm LED
BFAN-E is an intelligent fan unit
The fan plug in unit is designed for forced air cooling in the 7360 ISAM FX-8 equipment practice. It is field replaceable and can be hot-inserted. It contains 6 wide-range fans, temperature controller, variable speed fans, and an alarm interface board. It also provides the space and guide tacks for a field replaceable dust filter.
The Fan unit provides an alarm indication towards the NT in case of failure. One alarm LED is present on the front panel of the Fan unit, to provide a visual indication of fan failure conditions. Therefore, the AFAN-E unit provides the following features:
Provides forced air cooling in a 7360 ISAM FX-8 subrack
Contains six wide voltage range, temperature controlled, variable speed fans
Is mounted in the 7360 ISAM FX-8 subrack fan area behind the fan unit cover
Supported nominal voltages: -48Vdc / -60Vdc
Contains the fan control card EFCU-D, which generates a common fan alarm towards the NT cards (via the NGFC-E) in case of fan failure and drives the fan alarm LED
Is secured to the 7360 ISAM FX-8 subrack with a screw
Is field replaceable and can be hot-inserted
Provides the space and guiding for a field replaceable dust filter
The BFAN-E intelligent fan unit provides the following main improvements:
Contains 8 fans variable speed-fans. The front fan and the rear fan in the same column of the fan tray have the same fan speed.
The fan speed can be controlled in two modes:
The fan speed is defined by the local ambient temperature (measured via temperature sensors on the control board) according to a pre-defined speed versus temperature curve
The fan speed is defined by a worst-case temperature margin of the functional boards which are influenced by the specific fan
In case of fan failure, the active fans are forced either to full speed or to a pre-defined speed if the fan tray is working in the mode where the fan speed is defined by the local ambient temperature

16. 7360 Hardware: FX-8 Chassis (cont)
NGFC-E: General Facilities Card -ETSI module:
1 EBATRET branch connection dual hole lugs ; 2 and 3 EBAT-B, EBAT- A branch connection dual hole lug; 4 and 5 Circuit Breaker switch (40A) EBAT-A, EBAT-B; 6 and 10 Alarm signals D15 connector (down, up); 7 and 8 Alarm lamps cascading connectors RJ-45 (up, down); 9 Door alarm contacts connectors RJ-45; 11 LED indicators
The NFXS-E (FX-8) shelf has a pluggable GFC General Facilitate Card, the NGFC-E. It is at the bottom of the 7360 ISAM FX-8 system and it is the main electrical power entry. Therefore, it provides the following functions: provisioning for the connection of the external input power feeders (branch A and B feeders), distribution of these to all the slots, and the FAN unit. It has 2 circuit breakers of 40 A each, one per branch. It also has LEDs showing the BAT-A/B availability and the system alarms such as Central Office alarms, door alarm, and Rack lamp alarms.
LED indicators:
BAT-A availability indicator (green)
BAT-B availability indicator (green)
Alarm lamp (red)

17. 7360 Hardware: Controller Card
The FANT-F Controller Cards are installed x 2:
Configured Active/Hot Standby
Interface ports configured on NTA/NTB as active/active
Host 1/10GE ports x 4 each
Host 1 x RJ45 1GE port, BITS in/out, Console input
Host external clocking interface
480 Gbps switching Fabric
NT Controller Card
The FANT-F Network Termination (NT) controller board contains an ‘Intelligent Hub’ (Ihub) which provides the switching, routing and aggregation of end user traffic to and from the network and uplink interfaces, and must be inserted into the NT-A and NT-B positions of the subrack.
The FANT-F controller cards installed are configured as an active/standby pair. Although only one NT card is ‘active’ at a time, the network ports on both controller cards are simultaneously active, e.g., contributing LAG ports on both cards (e.g., NT-A:port 1 and NT-B:port 1) are both ‘active/active’. Therefore equipment and link redundancy are achieved by the solution containing an NT-A and NT-B with Link Aggregation ports hosted on both controller cards.
The NT controller cards both contain a Compact Flash card each that contain the OSWP (Overall Software Package, Release b/53.556), the ONT software (5.4.00d) and the service configurations. These configurations are mirrored across both the NT-A and NT-B cards in real- time therefore in the event of a hardware failover incident, the standby NT controller card can assume ‘active’ functionality immediately.
The configuration can be performed locally via console cable, remotely via a telnet/SSH session, or, as of BP1.1, via the 5571 PCC. Connectivity via console cable is to be done via the ‘active’ NT card (as displayed by the status LED), in which all configuration changes are mirrored across both NT cards in real time.

18. 7360 Hardware: Controller Card Cont)
Parameters
FANT-F
Processing platform
Quad core
CPU Memory
4 Gbyte
Throughput
480 Gbps
NT-NT speed
40 Gbps
NT-LT speed
40 Gbps*
M-VR
Yes
Routing protocols
BGP, ISIS, OSPF, RIP
Scalability
Very High (FDB : 128K)
Routes
High (FIB:16K, RIB: 16K)
Filters
High (512 L2, 512 L3)
MPLS ready
VPLS ready
Synchronization
BITS In/Out, SynchE In/Out, PPS, ToD, GPS
FANT-F: Max 40G interconnection with LTs (limited to 20Gbps in FX-16, because the max bandwidth toward the LTs is 320G).

19. 7360 Hardware: LT Card, NGLT-C
NGLT-C features are as follows:
8 PON Ports
Configured as singular or ‘type B’ (PON redundancy)
Can host up to 128 ONTs per PON (optical budget dependent)
B+ or C+ Optics
SC/UPC Optics
The 7360 FX-4 and FX-8 chassis contains up to 4 or 8 Line Cards (FGLT-B or NGLT-C card). There are 8 PON ports per Line Card for the NGLT-C hosting the centralised splitters that connect up to 32 ONTs per PON as defined for this solution. The PON ports per board support Gbps downstream rate and Gbps upstream rate.
The PON optics can allow for up to 128 ONTs per PON dependent on the optical budget (delta of closest to furthest ONTs, length of fibre, etc). The POL service requirements are to support 32 ONTs (or less) only per PON port utilising a single 1:32 splitter (or 1:2/4/8/ or 16 splitter). The split ratio can be as high as 1:128 but traffic contention ratios need to be considered. If higher split ratios than 1:16 are desirable, discuss with your local Nokia representative.
The LT cards can offer PON redundancy to eliminate customer outages due to fibre cuts or PON port optical failure (‘Type-B’ protection as per ITU-T G.984.)
The SFPs are G compliant and have an SC/UPC optical interface. There are 2 supported SFP variants:
GPON B+ optics
GPON C+ optics (with increased optical budget)
Can work in load sharing mode towards act/act NTs (2 x10G backplane capacity)
PON feeder redundancy, Type B protection support
Embedded OTDR (Optical Time/Domain Reflectometer) support
RSSI (Received Signal Strength Indicator)

20. 7360 Hardware: LT Card, FGLT-B
The FGLT-B is the life-cycle replacement of the functionally equivalent FGLT-A, the previous POL Line Card that is ‘end of life’. Features are:
16 PON Ports
Configured as singular or ‘type B’ (PON redundancy)
Can host up to 128 ONTs per PON (optical budget dependent)
B+ or C+ Optics
SC/UPC Optics
The 7360 FX-4 and FX-8 chassis contains up to 4 or 8 Line Cards (FGLT-B or NGLT-C card). There are 16 PON ports per Line Card for the FGLT-B hosting the centralised splitters that connect up to 32 ONTs per PON as defined for this solution (128 in total). The PON ports per board support Gbps downstream rate and Gbps upstream rate.
The PON optics can allow for up to 128 ONTs per PON dependent on the optical budget (delta of closest to furthest ONTs, length of fibre, etc). The POL service requirements are to support 32 ONTs (or less) only per PON port utilising a single 1:32 splitter (or 1:2/4/8/ or 16 splitter). The split ratio can be as high as 1:128 but traffic contention ratios need to be considered. If higher split ratios than 1:16 are desirable, discuss with your local Nokia representative.
The LT cards can offer PON redundancy to eliminate customer outages due to fibre cuts or PON port optical failure (‘Type-B’ protection as per ITU-T G.984.)
The SFPs are G compliant and have an SC/UPC optical interface. There are 2 supported SFP variants:
GPON B+ optics
GPON C+ optics (with increased optical budget)
Can work in load sharing mode towards act/act NTs (2 x10G backplane capacity)
PON feeder redundancy, Type B protection support
Embedded OTDR (Optical Time/Domain Reflectometer) support
RSSI (Received Signal Strength Indicator)

21. 3
Passive Optical LAN Hardware: ONT

22. 7360 Hardware: ONT Naming (Legacy)
I G
Single family
Indoor
POTS
Ethernet RF
GigE (G)
O – V
Outdoor
VDSL, FE or GigE ports
POTS RF
GigE (G),
VDLSL (V)
MDU
When we refer to an ONT in the Nokia portfolio, we use a mnemonic system for naming them. This system provides us information regarding the interfaces supported by the ONT. The first character (a letter) in the mnemonic defines the usage, whether it is for Indoor, Outdoor (MDU), or Business. The following characters (numeric) indicate the number of ports and port types. The letter I means the ONT is used for indoor, usually for an individual residential use. Sometimes we refer to this ONT as SFU, or Single Family Unit. The Letter O means the ONT is used for outdoor usage, like the case of a Multi- Dwelling Unit, MDU, that is shared among several subscribers (for example, apartment buildings) and can be placed in outdoor locations. The Letter B is used to indicate that the ONT is intended for Business.
Sometimes we can use an ONT for a different usage than it was intended. This will be the case of indoor ONTs used for business locations, just as long E1s/T1s are not needed. For the Indoor ONT, the meaning of the numeric characters are as follows, in the order from left to right: number of POTS ports, number of Ethernet ports, and number of analogue/digital video (RF-Radio Frequency) ports. Finally, the last character (a letter) will indicate the data speed - G for GE.
In the case of an MDU ONT, the assignment is similar: number of POTS ports, number of Ethernet ports, and number of analogue/digital video (RF-Radio Frequency) ports. Finally, the last character (a letter) will indicate if the second number in the mnemonic refers either to GigE(G), FE(E) or VDSL (V). The last case is a Business ONT. In this case, we indicate first the number of POTS ports, then GE ports, followed by the number of RF ports, and finally the number of E1 or T1 ports.
B – T
Business
Business
POTS
GigE ports RF
E1 or T1

23. 7360 Hardware: ONT Naming (current)
Most Important Interfaces Definition, 1 or 2 letters: WiFi, SFP ONT, VDSL, HPNA, MOCA, GE, FE, PoE
G W-A
Single family
Uplink type:
G=GPON
POTS
GigE Ports
1=RF, 0 = no RF
‘Most Important Interface’/A-M= ALu ONT, P-Z, external Manufacturer
G – x-x
Uplink type: G=GPON
‘Most Important Interface’/A-M= ALu ONT, P-Z, external Manufacturer
Business
POTS
GigE ports
1=RF, 0
= no RF
E1 or T1

24. ONT Hardware: I-240G-D ONT
The I-240G-D is a legacy ONT in early POL Installations:
Four 10/100/1000 x 4 port RJ45 data interfaces
Two ATA Voice POTS ports via RJ11 (SIP/H248 Capable)
DC power pack fed
I-240G-D ONT
The I-240G-D indoor ONTs provide a user-network interface (UNI) for the POL network by terminating the PON interface and converting it to 4 x data user interfaces and 2 x analogue POTS interfaces that directly connect to subscriber devices. The I-240G-D indoor ONT provides the following functions:
G.984 series GPON standard compliant
Auto-negotiation and MDI/MDIX auto-sensing
2.488 Gbps downstream receiver and Gbps burst mode upstream transmitter.
Separate UNI for each Data port x 4
Separate UNI for each ATA/POTS port x 2

25. ONT Hardware: G-040P-P ONT
Another legacy ONT in early POL deployments is the PoE capable G-040P-P:
Four 10/100/1000 x 4 port RJ45 data interfaces + POE (60w total)
POE 30w max per port
DC power pack fed/ UPS Input
802.1q VLAN, VLAN stacking (Q in Q), VLAN translation and filtering
254 x 128 x 35 mm, Weight < 1kg
G040P-P ONT
The G-040P-P indoor ONT also provides a user-network interface (UNI) for the POL network by terminating the PON interface and converting it to 4 x data user interfaces that directly connect to subscriber devices. The G-040P-P indoor ONT provides the following functions:
G.984 series GPON standard compliant
Auto-negotiation and MDI/MDIX auto-sensing
Power over Ethernet capability on a per port basis (enabled or disabled)
2.488 Gbps downstream receiver and Gbps burst mode upstream transmitter.
Separate UNI for each Data port x 4

26. ONT Hardware: G-240G-C ONT
Replacement ONT for the legacy I-240G-D:
Four 10/100/1000 x 4 port RJ45 data interfaces
Two ATA Voice POTS ports via RJ (SIP/H248 Capable)
DC power pack fed
G-240G-C ONT
The G-240G-C indoor ONTs provide a user-network interface (UNI) for the POL network by terminating the PON interface and converting it to 4 x data user interfaces and 2 x analogue POTS interfaces that directly connect to subscriber devices. The G-240G-C indoor ONT provides the following functions:
G.984 series GPON standard compliant
Auto-negotiation and MDI/MDIX auto-sensing
2.488 Gbps downstream receiver and Gbps burst mode upstream transmitter.
Separate UNI for each Data port x 4
Separate UNI for each ATA/POTS port x 2

27. ONT Hardware: G-040P-Q ONT
The G-040P-Q is the lifecycle replacement of the PoE capable G-040P-P. It has:
Four 10/100/1000 x 4 port RJ45 data interfaces + POE (60w total)
POE 30w max per port
DC power pack fed/ UPS Input
802.1q VLAN, VLAN stacking (Q in Q), VLAN translation and filtering
255 x 148 x 45 mm, Weight < 500g
G040P-Q ONT
The G-040P-Q indoor ONT also provides a user-network interface (UNI) for the POL network by terminating the PON interface and converting it to 4 x data user interfaces that directly connect to subscriber devices. The G-040P-Q indoor ONT provides the following functions:
G.984 series GPON standard compliant
Auto-negotiation and MDI/MDIX auto-sensing
Power over Ethernet capability on a per port basis (enabled or disabled)
2.488 Gbps downstream receiver and Gbps burst mode upstream transmitter.
Separate UNI for each Data port x 4

28. ONT Hardware: G-080P-P ONT
The G-080P-P is a new ONT form factor introduced via BP1.1 that is also PoE capable:
Eight 10/100/1000 x 4 port RJ45 data interfaces + POE (140w total)
POE 30w max per port
DC power pack fed/ UPS Input
802.1q VLAN, VLAN stacking (Q in Q), VLAN translation and filtering
400 x 240 x 44 mm, Weight 3.2kg
G080P-P ONT
The G-080P-P indoor ONT also provides a user-network interface (UNI) for the POL network by terminating the PON interface and converting it to 8 x data user interfaces that directly connect to subscriber devices. The G-080P-P indoor ONT provides the following functions:
Interfaces:
8 RJ-45 10/100/1000 Ethernet
Support POE Class 0 ~ 4 (170W per ONU)
Physical:
Height: 44 mm
Width: 400 mm
Depth: 240 mm
Weight: 3.2 kg
Wall-mount or Rack-mount (19”)
Environmental :
Temperature: -30°C to 55°C
Power:
100V~240 AC or 54V DC, 200W maximum
Synchronization
GPON ITU-T G Amendment-2 for OLT to ONU synchronization
IEEE 1588 Master clock for Femto / Nano cell to ONU synchronization
L2 Multicast
One Step/E2E mode of Operation
Configurable IEEE1588v2 Packet rate(Announce, Sync)
2 RJ45 for 1PPS+TOD output
SyncE

29. ONT Hardware: G-010G-A
The G-010G-A is a new ONT form factor introduced via BP1.1 that is also PoE capable:
Data Only ONT so can re-use any current Ethernet RGW/STB
1 port 10/100/1000Mbps rates
Small size: 120mm x90mm x33mm (W x D x H)
RSSI Capable Reporting
Wall and Desktop mounting
Ethernet /IP
• 10/100/1000Base-T interface with RJ-45 connectors
• Ethernet port auto negotiation or manual configuration
• Medium dependent interface/medium dependent interface crossover (MDI/MDIX) automatic sense
• Supports port-based downstream priority queues and strict priority scheduling for traffic Class of Service (CoS) differentiation
• Virtual switch based on 802.1Q VLAN
• VLAN tagging/detagging per Ethernet port and marking/remarking of 802.1p
• VLAN stacking (Q-in-Q) and VLAN translationIPv4 Type of Service/Differentiated Service Code Point (ToS/DSCP) to 802.1p mapping for untagged frames
• IGMPv2/v3 snooping
• Supports RFC 2236 (v2), RFC 3376 (v3)
• Supports any source multicast/source-specific multicast (ASM/SSM) Operations, administration and maintenance (OAM)
• Standard-compliant OMCI (the embedded operations channel) interface as defined by G and G.988
• Supports local WebGUI for the optical network unit (ONU) authentication password configuration from the LAN side
• MIB manipulation over OMCI using the create, delete, set, get, and get next commands
• Provisioning of Ethernet service
• Alarm reporting and performance monitoring
• Remote software image download over OMCI, as well as activation and rebooting
• Supports SLID (using WebGUI)
• CoS based on VLAN ID, 802.1p bit

30. 4
Hardware Installation

31. OLT/ONT Chassis Installation Process
A specific POL OLT physical installation document exists (provided as a part of the POL document suite): 7360 FX-4, FX-8 & ONT Installation Guide (3HV AAAC-PCZZA)
Provides for powering, earthing, fibre install practice, chassis install practice etc
Further Information can be obtained via ALu generic 7360 Hardware Installation Manual 3HH AAAA-RJZZA
The same document contains ONT installation practices
Provides for install practice and optical power testing

32. 5
Documentation Set

33. Collateral/Documentation Set
USB Stick Provided: Compact flash image for OLT, ONT software tar pack + software read/write application
Passive Optical LAN: Detailed Design, Solution Installation and CLI/Physical Installation /Configuration Documents included
Miscellaneous ALu 7360 OLT/ONT Documentation and Customer Release Notes
Training Slide-ware and Training Labs

34. End of Module 1