Wi-Tek WI-POL5800-08 POL WLAN Solution OLT-Wireless Tek User Manual

Wi-Tek WI-POL5800-08 POL WLAN Solution OLT-Wireless Tek

Product Information

Specifications:

• Model: OLT WI-POL5800-08 & MDU WI-POL308G-P
• Uplink Rate: 1.244Gbps (max uplink), 2.488Gbps (max downlink)
• DBA Types: Type 1 (Fixed bandwidth), Type 2 (Assured bandwidth), Type 3 (Assured bandwidth + Max bandwidth), Type 4 (Max bandwidth), Type 5 (Mixed bandwidth)

Product Usage Instructions

WLAN Solution
To install and configure the GPON OLT for WLAN application, follow these steps:

1. Routing cables according to your network planning
2. Power on the system
3. Set up WLAN application settings

Network Planning

Bandwidth Planning
GPON technology uses asymmetric PON technology with specific uplink and downlink rates. Determine the number of ONUs connected based on spectral ratio and VLAN configurations.

DBA Planning
Dynamic Bandwidth Allocation (DBA) is crucial for configuring uplink dynamic bandwidths. Use a simple DBA planning with Type 3 and Type 4 mixed DBA for efficient bandwidth allocation.

Hotel Application
For hotel applications, configure network topologies with specific services allocated to ports, servers, and VLANs.

Configure the ONU to Go Online

Configure the DBA Profile
Set up the DBA profile using GPON standard templates (Type 1 to Type 5) for efficient bandwidth allocation.

FAQ:

• Q: What is DBA planning?
  A: DBA (Dynamic Bandwidth Allocation) is used to configure uplink dynamic bandwidths for efficient network usage.

• Q: How many T-CONTs does a line profile allow?
  A: A line profile allows a maximum of 4 T-CONTs for efficient data transmission.

Wi-Tek POL WLAN Solution User Manual

Version: 1.0 Date: 2024-07-15

www.wireless-tek.com

About This Document

This topic describes how to install and configuration the GPON OLT, including routing cables, and powering on the system, and setting in WLAN application. This section uses the OLT WI-POL5800-08 & MDU WI-POL308G-P as an example.
The intended audience provides a reference for network design.

History
Updates in V1.0 (2024-07-15)
The first release.

WLAN solution

The passive optical hotel network integrates wireless, wired, video, voice, intelligent room service and other business development requirements, and proposes the all-optical intelligent hotel concept and the room service carrying mode of “one room, one fiber and multiple services” to meet the carrying requirements of various hotel information systems and simplify networking and management.
The common business types of hotels are as follows:

1. Voice service : The voice service of the front desk and the guest room, the voice external line is provided by the telecom company, and the voice internal line is provided by the hotel voice system.
2. Guest network: Internet access service is provided for guests in the hotel. The Internet network outlet of the hotel is provided by the telecom company, and the Internet service inside the hotel is distributed to each room by the network built by the hotel.
3. IPTV network: Provide in-room live video/on-demand service for guests.
4. Hotel office network: To provide office network services for hotel employees, mainly covering offices, meeting rooms, hotel reception and other areas.
5. CCTV network: the camera sends the captured video or picture back to the video monitoring center of the hotel in real time for further processing and storage.
   The voice service network, guest network, IPTV network, hotel office network, and monitoring network are logically divided into five networks, which can be physically combined into one physical carrier network.
   While saving the cost of network construction, it can also effectively reduce the cost of decoration construction and wire consumption.

Network planning

Bandwidth planning
GPON technology uses asymmetric PON technology, the maximum uplink rate is 1.244Gbps, the maximum downlink rate is 2.488Gbps, using different spectral ratio can determine the number of ONUs directly connected to the GPON port, the number of ONUs connected to the downstream determines the maximum concurrent upstream and downstream bandwidth. For example, when 4 ONUs are connected at the same time and data is concurrent, the upstream bandwidth is 1.244Gbps/4=311Mbps, and the downstream bandwidth is 2.488Gbps/4=622Mbps.
If 8 ONUs are connected at the same time at 1:8 optical splitting, the upstream bandwidth is 1.244Gbps/8=155.5Mbps, and the downstream bandwidth is 2.488Gbps/8=311Mbps.
Of course, you can also set different dynamic bandwidth allocation profile to optimize and meet the needs of different services. For example, CCTV mainly uses uplink data, while Wi-Fi mainly uses downlink data.

Data flow planning
The PON network is a L2 forwarding network. VLAN is most critical planning used to distinguish and isolate services. The planning method is recommended as follows:

1. Configure VLAN for different service areas.
2. Configure VLAN for the same service area based on service types.
3. Assign VLAN numbers continuously to ensure proper use of VLAN resources.
4. Reserve a certain number of VLAN for subsequent expansion.
5. Much devices cannot have their own VLAN interface and can only use VLAN1, such as MDU cloud management interface. In general, do not use VLAN1 for other services to avoid conflict with service planning.

For example:

For logic areas| Service: VLAN 100~199 Core layer: VLAN 300~499

Access layer: VLAN 1000~1999

Data Flow: VLAN 3000~3999

---|---
For different service areas| Building A Floor 2: VLAN 1000~1099

Building A Floor 3: VLAN 1100~1199

For service types| Building A Floor 2 CCTV: VLAN 1000~1009

Building A Floor 2 WLAN: VLAN 1010~1019

IP address planning

Recommendation:

• Server, NVR, printer, IPC and other devices use static IP address, easy to use and map to Internet and other applications, locate problems. Computer, mobile devices and other devices use DHCP, meet the application scenarios such as mobile office.
• IP addresses are unique on the network. IP address conflict is not allowed.
• Private IP addresses are used on the LAN to save resources.
• The node addresses of the same service must be consecutive, which facilitates route planning and summary. Consecutive addresses facilitate route aggregation, reduce the size of the routing table, and speed up route calculation and convergence.
• The address allocation at each level should have a margin, and there is no need to add address segments and routing entries when the network scale expands.

DBA planning
DBA (dynamically allocates bandwidth) is used to configure uplink dynamic bandwidths. It is recommended to adopt a simple DBA planning, that is, to use type3 and type 4 mixed DBA, which can ensure the bandwidth of high-priority services and share more bandwidth as much as possible when the network is idle.

*X= Fixed bandwidth, Y= Assured bandwidth, Z= Max bandwidth.

• Type1: The fixed bandwidth is completely reserved for a specific ONU or ONU for specific services. This portion of bandwidth cannot be used by other ONUs even when the ONU has no upstream service flow. Fixed bandwidth is mainly used for services that are very sensitive to service quality, such as TDM and VoIP.
• Type2: The assured bandwidth means assured bandwidth available when the ONU needs to use bandwidth. When the actual service traffic of the ONU does not reach the assured bandwidth, the DBA mechanism of the device should be able to allocate the remaining bandwidth to other ONU services. Due to the need for a DBA mechanism to control the distribution, its real-time performance is less than the fixed bandwidth.
• Type3 : The combination type of assured bandwidth + max bandwidth, while ensuring the user has a certain bandwidth, it also allows the user to have a certain bandwidth preemption, but the sum does not exceed the maximum bandwidth configured by the user. This bandwidth is mainly used for VoIP services.
• Type4 : The max bandwidth is the upper limit of the bandwidth that can be obtained when the bandwidth is used by the ONU, and the bandwidth resource used by the ONU is met to the greatest extent. This type is commonly used for IPTV and high-speed Internet access services.
• Type5: The combination type of fixed bandwidth + assured bandwidth + maximum bandwidth. It reserves fixed bandwidth resources that cannot be preempted by other users, ensures assured bandwidth when required, and allows users to preempt a certain amount of bandwidth, but the total amount does not exceed the maximum bandwidth configured by users.

Hotel Application

Take the following network topologies as typical hotel application scenarios:

ONU Data planning for the 2nd floor of the hotel:

GPON

Port

| ONU ID

/Eth Port

| Data

Type

| VLAN| GEM ID| T-CONT| DBA
---|---|---|---|---|---|---
0/2/1| 1/1~2| Internet| 1000| 1| 1| 1, pol_dba_Int, Type4, Max: 102400Kbps
1/3~4| Wi-Fi| 1001| 2| 1| 1, pol_dba_Int, Type4, Max: 102400Kbps
1/5| IP

Camera

| 1002| 3| 2| 2, pol_dba_ipc, Type3, Assured: 10240 Kbps,

Max: 102400Kbps

1/6| VoIP

(SIP)

| 1003| 4| 3| 3, pol_dba_voip, Type3, Assured: 1024 Kbps,

Max: 10240Kbps

1/7~8| IPTV| 1004| 5| 4| 4, pol_dba_iptv, Type4, Max: 102400Kbps

A line-profile allows a maximum of 4 T-CONTs
The Wi-Fi service VLAN is overused by the Internet access service VLAN, the Wi-Fi service can overuse the data plan of the Internet access service.

Configure the ONU to go online

Configure the DBA profile
DBA (dynamically allocates bandwidth) is used to configure uplink dynamic bandwidths. According to the GPON standard, the templates are TYPE1(fixed bandwidth), TYPE2(assured bandwidth), TYPE3(assured bandwidth + max bandwidth), TYPE4(max bandwidth), and TYPE5(mixed bandwidth).

As planning, configure the dba profile as follow:

• GPON> enable
• system-view
• [GPON]dba-profile 1 name pol_dba_Int
• [GPON-dba-profile-1] type 4 max 102400
• [GPON-dba-profile-1] commit
• [GPON-dba-profile-1] quit
• [GPON]dba-profile 2 name pol_dba_ipc
• [GPON-dba-profile-2] type 3 assured 10240 max 102400
• [GPON-dba-profile-2] commit
• [GPON-dba-profile-2] quit
• [GPON]dba-profile 3 name pol_dba_voip
• [GPON-dba-profile-3] type 3 assured 10240 max 102400
• [GPON-dba-profile-3] commit
• [GPON-dba-profile-3] quit
• [GPON]dba-profile 4 name pol_dba_iptv
• [GPON-dba-profile-4] type 4 max 102400
• [GPON-dba-profile-4] commit
• [GPON-dba-profile-4] quit

pol_dba_Int

Configure a DBA profile as Type1/2/3/4/5| type 1 fix _fixedbw [ method sr ]

type 2 assured _assuredbw [ method sr ] type 3 assured _assuredbw max _maxbw [ method sr ]

type 4 max _maxbw [ method sr ]

type 5 fix _fixedbw assured _assuredbw max

_maxbw [ method sr ]

| type 3 assured 1024 max

10240

Save dba configuration| commit|
Query the DBA profile| display dba-profile { index | name name }| Display dba-profile 1

Configure the VLAN profile
VLAN profiles are used to configure service vlan translation rules. the VLAN template needs to be referenced in the line profile or specific template.

As planning, configure the dba profile as follow:

• [GPON]vlan-profile 1 name pol_vlan_Int
• [GPON-vlan-profile-1] translate cvlan 1000 svlan 1000
• [GPON-vlan-profile-1] translate cvlan 1 svlan 1000
• // VLAN 1 is used for MDU cloud management. In general, do not use VLAN1 for other services to avoid conflict with service planning.
• [GPON-vlan-profile-1] commit
• [GPON-vlan-profile-1] quit
• [GPON]vlan-profile 2 name pol_vlan_wifi
• [GPON-vlan-profile-2] translate cvlan 1001 svlan 1001
• [GPON-vlan-profile-2] commit
• [GPON-vlan-profile-2] quit
• [GPON]vlan-profile 3 name pol_vlan_ipc
• [GPON-vlan-profile-3] translate cvlan 1002 svlan 1002
• [GPON-vlan-profile-3] commit
• [GPON-vlan-profile-3] quit
• [GPON]vlan-profile 4 name pol_vlan_voip
• [GPON-vlan-profile-4] translate cvlan 1003 svlan 1003
• [GPON-vlan-profile-4] commit
• [GPON-vlan-profile-4] quit
• [GPON]vlan-profile 5 name pol_vlan_iptv
• [GPON-vlan-profile-5] translate cvlan 1004 svlan 1004
• [GPON-vlan-profile-5] commit
• [GPON-vlan-profile-5] quit

name_

name }

| vlan-profile 1 name pol_vlan_Int
Configure the vlan to add

rules

| add inner-vlan vlan [ pri ] outer-vlan vlan [ pri ]| add inner-vlan 10 outer-vlan 20
Configure default vlan rules| default vlan vlan [ pri ]| default vlan 10
Configure vlan conversion

rules

| translate cvlan vlan [ pri ] svlan vlan [ pri ]| translate cvlan 20 svlan 10
Configure vlan conversion

and add rules

| translate-and-add cvlan vlan [ pri ] svlan vlan [ pri ] outer-vlan vlan [ pri ]| translate-and-add cvlan 10 svlan 20 outer- vlan 100
Save Configuration| commit|
Viewing VLAN Templates| display vlan-profile { index | name name }|
View VLAN template binding

information

| display vlan-profile bound-info { all | index }|

Configure the line profile
Line profiles are used to configure the ONT service flow mapping method, service flow processing policy and other related parameters.

As planning, configure the dba profile as follow:

• [GPON]line-profile 1 name pol_line_buildingA_floor2
• [GPON-line-profile-1] model f0-s210
• [GPON-line-profile-1] tcont 1 dba-profile 1
• [GPON-line-profile-1] tcont 2 dba-profile 2
• [GPON-line-profile-1] tcont 3 dba-profile 3
• [GPON-line-profile-1] tcont 4 dba-profile 4
• [GPON-line-profile-1] gem 1 tcont 1 vlan-profile 1
• [GPON-line-profile-1] gem 2 tcont 1 vlan-profile 2
• [GPON-line-profile-1] gem 3 tcont 2 vlan-profile 3
• [GPON-line-profile-1] gem 4 tcont 3 vlan-profile 4
• [GPON-line-profile-1] gem 5 tcont 4 vlan-profile 5
• [GPON-line-profile-1] mapping 0 vlan 1 gem 1
• [GPON-line-profile-1] mapping 1 vlan 1000 gem 1
• [GPON-line-profile-1] mapping 2 vlan 1001 gem 2
• [GPON-line-profile-1] mapping 3 vlan 1002 gem 3
• [GPON-line-profile-1] mapping 4 vlan 1003 gem 4
• [GPON-line-profile-1] mapping 5 vlan 1004 gem 5
• [GPON-line-profile-1] port vlan 0 eth 1 default vlan 1000 [GPON-line-profile-1] port vlan 1 eth 2 default vlan 1000 [GPON-line-profile-1] port vlan 2 eth 3 default vlan 1001 [GPON-line-profile-1] port vlan 3 eth 4 default vlan 1001 [GPON-line-
• profile-1] port vlan 4 eth 5 default vlan 1002 [GPON-line-profile-1] port vlan 5 eth 6 default vlan 1003 [GPON-line-profile-1] port vlan 6 eth 7 default vlan 1004 [GPON-line-profile-1] port vlan 7 eth 8 default vlan 1004 [GPON-line-profile-1]
• commit
• [GPON-line-profile-1] quit

queue
queue | downstream-profile index | upstream- profile index | vlan-profile** index ]| mandatory
Configuring the Flow

Mapping Mode

| mapping mode { port port-priority | port-vlan | port-
vlan-priority | priority | vlan | vlan-priority }| Default VLAN-basedmapping
Configuring Business Flow

Mapping

| mapping index { vlan vlan | priority pri | port { eth

eth | veip | iphost } } gem index

| mandatory
---|---|---
Configuring Business Flow Processing Policies| port vlan index { eth num | iphost | ont } { default vlan num [ pri ] | transparent | vlan num { trunk | q-

in-q | translate } [ vlan num [pri ] } }

| Configuration required for SFU, not required for

HGUs

Configuring Downstream

Multicast Flow Processing Policies

| multicast downstream { tag num [ port num | pri ] |

untag [ port num ] | translate vlan [ port num | pri ] }

|
De-enable ONT multicast fast

leave

| multicast fast-leave disable [ port num ]|
Configure the ONT multicast

learning number

| multicast group-limit num [ port num ]|
Configuring ONT Multicast

Mode

| multicast mode { igmp-snooping | olt-control } [ port num ]|
Configure upstream multicast

stream processing

| multicast upstream { tag num [ port num | pri ] |

translate vlan [ port num | pri ] }

|
Enable ONT FEC/Loop

Detection

| ont { fec | ring check }|
De-enable port isolation| ont port-switch|
Configuring ONT Flow

Control

| ont flow-control [ port num ]|
Configure the maximum number of MAC learns for

ONT

| ont mac-address-table max-mac-count num [ port

num ]

|
Close the ONT CATV port| ont shutdown ont-id catv-port num|
Configuring the Mapping

Mode

| qos-mode { gem-car | priority-queue }|
Configuring ONT Port Speed

Limiting

| port num egress cir cir pir pir cbs cbs pbs pbs pbs|
Binding alarm/multicast

templates

| bind { alarm-profile | multicast-profile } { index |

name }

|
Save Configuration| commit|
View line templates| display line-profile { index | name name }|
View line template binding

information

| display line-profile bound-info { all | index }|

Configure the uplink service VLAN

• [GPON]vlan 1000,1001,1002,1003,1004
• [GPON-vlan-1000,1001,1002,1003,1004]quit
• // Create uplink VLANs in batches
• [GPON] interface ethernet 0/0/1
• [GPON-ethernet-0/0/1] port mode access
• [GPON-ethernet-0/0/1] port default vlan 1002
• [GPON-ethernet-0/0/1] quit
• // If the uplink port still needs to be tagged, set it to trunk. The command is
• // [GPON-ethernet-0/0/1] port mode trunk
• // [GPON-ethernet-0/0/1] port trunk allowed vlan 1,1002
• // [GPON-ethernet-0/0/1] quit
• [GPON] interface ethernet 0/1/1
• [GPON-ethernet-0/1/1] port mode access
• [GPON-ethernet-0/1/1] port default vlan 1000
• [GPON-ethernet-0/1/1] quit
• // If the uplink port still needs to be tagged, set it to trunk mode as shown in the example above.
• [GPON] interface ethernet 0/1/2
• [GPON-ethernet-0/1/2] port mode access
• [GPON-ethernet-0/1/2] port default vlan 1001
• [GPON-ethernet-0/1/2] quit
• [GPON] interface ethernet 0/1/3
• [GPON-ethernet-0/1/3] port mode access
• [GPON-ethernet-0/1/3] port default vlan 1003
• [GPON-ethernet-0/1/3] quit
• [GPON] interface ethernet 0/1/4
• [GPON-ethernet-0/1/4] port mode access
• [GPON-ethernet-0/1/4] port default vlan 1004
• [GPON-ethernet-0/1/4] quit

interface-

name }

|
Set the port default vlan

id

| port default vlan vlan-id| The value of vlan-id ranges from 1 to 4094.
Restore port default vlan

id

| undo port default vlan| The default VLAN for the port is 1
Manipulate| Command| Notes
---|---|---
Go to System View| system- view|
Enter port view| interface { { ethernet

interface-num } | interface- name }

|
Configure the port mode to access| port mode access|
Add the Access port to the specified vlan| port default vlan vlan-id| Access ports can only be in one VLAN, so set the port’s default VLAN to add the access port
to the specified VLAN.
Configure the port mode to Hybrid| port mode hybrid|
Add the Hybrid port to the specified

vlan and set it to the tagged attribute

| port hybrid tagged vlan

{ all | vlan-list }

| You can join specific VLANs, or join to all
VLANs, and these VLANs are tagged out on the outgoing ports.
Add the Hybrid port to the specified vlan and set it to the untagged

attribute

| port hybrid untagged vlan

{ all | vlan-list }

| You can join specific VLANs, or join to all VLANs, and these VLANs are untagged out of the port.
Remove the Hybrid port from the

specified vlan

| undo port hybrid vlan { all | vlan-list }|
Configure the port mode to Trunk| port mode trunk|
Add the Trunk port to the specified

vlan

| port trunk allowed vlan
{ all | vlan-list }|
Remove trunk ports from a

specified VLAN

| undo port trunk allowed
vlan { all | vlan-list }|

Configure the OLT &ONU cloud management VLAN

• //There is DHCP-Client on vlan-interface 1 by default, the DHCP-client can be enabled on other vlan-interface only after when no interface is enabled.
• //[GPON]interface vlan-interface 1
• //[GPON-vlanInterface-1]undo dhcp-client
• [GPON]interface vlan-interface 1000
• Create vlaninterface successfully!
• [GPON-vlanInterface-1000]dhcp-client ipv4
• [GPON-vlanInterface-1000]quit
• [GPON]display dhcp-client

Information of DHCP Client :

• IP Interface : VLAN-IF1000
• Version : IPv4
• Class ID : N/A
• Client ID : N/A
• Hostname : N/A

Information of IPv4 Lease :

• State : done
• IP address : 192.168.111.128
• IP mask : 255.255.255.0
• Gateway : 192.168.111.1
• Server : 192.168.111.1
• DNS : 192.168.111.1
• Lease : 0d0h30m0s
• // OLT must require an IP address to be able to connect to the network in order to access the Wi-Tek cloud.
• [GPON]interface gpon 0/2/1
• [GPON-gpon-0/2/1]port default vlan 1000
• [GPON-gpon-0/2/1]quit

Configure the ONT auto configure

• ONT auto-configuration is available when ONTs of the same type are brought online in batches. You need to enable the ONT auto-configuration function first and then configure the auto-configuration parameters. Different types of ONTs can
• be issued different line template configurations according to the Equipment ID. the OLT enables auto-configuration by default, and when an ONT is accessed, corresponding configurations are automatically issued according to the SFU or HGU
• type reported by the ONT.
• As planning, configure the dba profile as follow:
• [GPON] ont auto-config
• // Default is enable
• [GPON] ont auto-config 1 name buildingA_floor2_mdu equipment-id WI-POL308G-P line-profile 1
• //After the automatic online configuration is complete, you can connect the optical port of the MDU. The MDU automatically configures line-profile 1.

Enable ONT auto-

configuration

| ont auto-config|
Configuring ONT Auto Configuration Parameters| ont auto-config { name name | num }
{ all-ont | all-sfu | all-hgu | vendor id | equipment-id id } line-profile { index | auto } [ interface gpon ]|
Configure ONT for flexible configuration parameters| ont auto-config { name name | num }
all-ont smart-match| After the smart-match parameter is configured, the OLT generates a generic template for VLAN 1 and automatically issues the configuration of SFUs or HGUs based on the type of ONT reporting

Review and Save the Configuration

• // Review the Configuration

• [GPON]display current-config

• !!!dba-profile

• dba-profile 1 name pol_dba_Int

• type 4 max 102400

• commit

• quit

• dba-profile 2 name pol_dba_ipc

• type 3 assured 10240 max 102400

• commit

• quit

• dba-profile 3 name pol_dba_voip

• type 3 assured 10240 max 102400

• commit

• quit

• dba-profile 4 name pol_dba_iptv

• type 4 max 102400

• commit

• quit

• !!!vlan-profile

• vlan-profile 1 name pol_vlan_Int
  translate cvlan 1000 svlan 1000

• translate cvlan 1 svlan 1000

• commit

• quit

• vlan-profile 2 name pol_vlan_wifi

• translate cvlan 1001 svlan 1001

• commit

• quit
  vlan-profile 3 name pol_vlan_ipc

• translate cvlan 1002 svlan 1002

• commit

• quit

• vlan-profile 4 name pol_vlan_voip

• translate cvlan 1003 svlan 1003

• commit

• quit

• vlan-profile 5 name pol_vlan_iptv

• translate cvlan 1004 svlan 1004

• commit

• quit

• !!!line-profile

• line-profile 1 name pol_line_buildingA_floor2

• model f0-s210

• tcont 1 dba-profile 1

• tcont 2 dba-profile 2

• tcont 3 dba-profile 3

• tcont 4 dba-profile 4

• gem 1 tcont 1 vlan-profile 1

• gem 2 tcont 1 vlan-profile 2

• gem 3 tcont 2 vlan-profile 3

• gem 4 tcont 3 vlan-profile 4

• gem 5 tcont 4 vlan-profile 5

• mapping 0 vlan 1 gem 1

• mapping 1 vlan 1000 gem 1

• mapping 2 vlan 1001 gem 2

• mapping 3 vlan 1002 gem 3

• mapping 4 vlan 1003 gem 4

• mapping 5 vlan 1004 gem 5

• port vlan 0 eth 1 default vlan 1000

• port vlan 1 eth 2 default vlan 1000

• port vlan 2 eth 3 default vlan 1001

• port vlan 3 eth 4 default vlan 1001

• port vlan 4 eth 5 default vlan 1002

• port vlan 5 eth 6 default vlan 1003

• port vlan 6 eth 7 default vlan 1004

• port vlan 7 eth 8 default vlan 1004

• commit

• quit

• !!!gpon-device

• ont-autofind interface gpon all

• ont auto-config

• ont auto-config 1 name buildingA_floor2_mdu equipment-id WI-POL308G-P line-profile 1 ont auto-config 1023 name AUTO_CONFIG_1023 all-ont smart-match

• !!!VLAN

• vlan 1000-1004

• quit

• interface ethernet 0/0/1

• port mode access

• port default vlan 1002

• quit

• interface ethernet 0/1/1

• port mode access

• port default vlan 1000

• quit

• interface ethernet 0/1/2

• port mode access

• port default vlan 1001

• quit

• interface ethernet 0/1/3

• port mode access

• port default vlan 1003

• quit

• interface ethernet 0/1/4

• port mode access

• port default vlan 1004

• quit

• interface gpon 0/2/1

• port default vlan 1000

• port hybrid tagged vlan 1-4094

• quit

• interface gpon 0/2/2

• port hybrid tagged vlan 1-4094

• quit

• interface gpon 0/2/3

• port hybrid tagged vlan 1-4094

• quit

• interface gpon 0/2/4

• port hybrid tagged vlan 1-4094

• quit

• interface gpon 0/2/5

• port hybrid tagged vlan 1-4094

• quit

• interface gpon 0/2/6

• port hybrid tagged vlan 1-4094

• quit

• interface gpon 0/2/7

• port hybrid tagged vlan 1-4094

• quit

• interface gpon 0/2/8

• port hybrid tagged vlan 1-4094

• quit

• !!!OAM

• http enable

• !!!IF

• interface internal-interface 0

• ip address 192.168.168.1 255.255.255.0 quit

• interface vlan-interface 1000

• quit

• !!!DHCP

• interface vlan-interface 1000

• dhcp-client

• quit

• // Save the Configuration, it is very important, the configuration will be lost after restart if the configuration is not saved!

• [GPON]quit

• save current-config

• Config in flash will be updated, confirm to do this?(y/n)[n]:y

• Start to do this, please wait…

• Save config successfully.

After the above configuration is complete, the MDU is online. If there is need to configure more OLT functions, such as AAA and routing, refer to the CLI manual.

Documents / Resources

| Wi- Tek WI-POL5800-08 POL WLAN Solution OLT-Wireless Tek [pdf] User Manual
WI-POL5800-08, WI-POL308G-P, WI-POL5800-08 POL WLAN Solution OLT-Wireless Tek, WI-POL5800-08, POL WLAN Solution OLT-Wireless Tek, OLT-Wireless Tek
---|---

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