V5812G_IMN_V1_EN

Installation V5812G

Installation Manual (IMN)

IMN Installation V5812G

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Copyright 2009 DASAN Networks, Inc. Issued by Technical Documentation Team Korea

Technical modifications possible. Technical specifications and features are binding only insofar as they are specifically and expressly agreed upon in a written contract.

Installation IMN V5812G

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Reason for Update Summary: Initial release

Details:

Chapter/Section Reason for Update

All Initial release

Issue History Issue Number

Date of Issue Reason for Update

01 2009/05 Initial release


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Contents 1 Protective Measures ...........................................................................7

1.1 General Notes ........................................................................................ 7 1.2 Protection Against Excessive High Contact Voltage............................... 8 1.3 Protection Against Escaping Laser Light ................................................ 8 1.4 Protection Against Physical Injury .......................................................... 8 1.5 Protection Against Fire in Racks or Housings ........................................ 9 1.6 Components Subject to Electrostatic Discharge..................................... 9 1.7 Handling Modules (General)................................................................... 9 1.8 Handling Optical Connectors and Fiber Optic Lines............................. 10 1.9 Declaration of CE Conformity ............................................................... 10 1.10 RoHS Declaration of Conformity ...........................................................11 1.11 WEEE Requirements.............................................................................11

2 Overview ............................................................................................12 2.1 Physical Specification ........................................................................... 15 2.2 Status LEDs on V5812G....................................................................... 16 2.3 Rack Installation ................................................................................... 19 2.4 Items Supplied...................................................................................... 19

3 Setting Up the Rack ..........................................................................20 3.1 Constructing the Rack .......................................................................... 20 3.2 Equipping the Rack .............................................................................. 22

3.2.1 Installing the Switch ................................................................................... 22 3.2.2 Grounding the Switch................................................................................. 23

4 Equipping the Switch........................................................................24 4.1 Installing PSU ....................................................................................... 24 4.2 Components for the V5812G................................................................ 25

4.2.1 Bases ......................................................................................................... 25 4.2.2 SFP Options............................................................................................... 25 4.2.3 SFP-GPON Options ................................................................................... 25

5 Cabling the Switch ............................................................................26 5.1 Connecting Uplink Interface ................................................................. 26

5.1.1 Installing Optical Connection...................................................................... 26 5.1.2 Installing Electrical Connection .................................................................. 27

5.2 Connecting the PON Interface.............................................................. 29 5.3 Connecting Outband MGMT Interface.................................................. 30 5.4 Connecting the Console Access........................................................... 31 5.5 Connecting Power Supply .................................................................... 32

5.5.1 Connecting AC Power Supply.................................................................... 32 5.5.2 Connecting DC Power Supply ................................................................... 33

6 Abbreviations ....................................................................................34


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Illustrations Fig. 1.1 Laser Symbol ...................................................................................................8 Fig. 1.2 Warning Label of Physical Injury Prevention....................................................9 Fig. 2.1 FTTx Service Deployments of GPON OLT ....................................................12 Fig. 2.2 Front View of V5812G....................................................................................13 Fig. 2.3 Rear View of V5812G.....................................................................................14 Fig. 2.4 LEDs on the front panel .................................................................................16 Fig. 2.5 Front View of the PSU (AC Type) ..................................................................18 Fig. 2.6 Front View of the PSU (DC Type) ..................................................................18 Fig. 3.1 Grounding Symbol..........................................................................................20 Fig. 3.2 19 Rack (Sectional View)..............................................................................20 Fig. 3.3 19 Rack (Front View) ....................................................................................21 Fig. 3.4 Attaching the Rack Brackets ..........................................................................22 Fig. 3.5 Attaching the Switch to the Rack ...................................................................23 Fig. 3.6 Grounding the Switch.....................................................................................23 Fig. 4.1 Installing PSU (AC Type)................................................................................24 Fig. 5.1 SFP module for Gigabit Ethernet (GbE).........................................................26 Fig. 5.2 Installing the Optical Connection with SFP Module .......................................27 Fig. 5.3 RJ45 Connector .............................................................................................27 Fig. 5.4 Installing the Electrical Connection ................................................................28 Fig. 5.5 Installing the GPON........................................................................................29 Fig. 5.6 Connecting MGMT Interface ..........................................................................30 Fig. 5.7 Connecting the Console Access ....................................................................31 Fig. 5.8 Connecting the AC Power Cable....................................................................32 Fig. 5.9 Connecting the DC Power Cable ...................................................................33


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Tables Tab. 2.1 Front Access Interface of V5812G ................................................................ 13 Tab. 2.2 Rear Access Interface of V5812G................................................................. 14 Tab. 2.3 Operating Status LEDs on V5812G .............................................................. 16 Tab. 2.4 MGMT Interface LEDs................................................................................... 17 Tab. 2.5 Console Interface LEDs ................................................................................ 17 Tab. 2.6 Status LEDs on GPON Ports......................................................................... 17 Tab. 2.7 Status LEDs for Uplink Interface (optical) ..................................................... 17 Tab. 2.8 Status LEDs for Uplink Interface (electrical).................................................. 18 Tab. 2.9 Status LEDs on PSU ..................................................................................... 19 Tab. 2.10 Rack Type Measures..................................................................................... 19 Tab. 4.1 Base Options................................................................................................. 25 Tab. 4.2 SFP Options .................................................................................................. 25 Tab. 4.3 SFP-GPON-OLT Options .............................................................................. 25


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1 Protective Measures This section includes the following topics: General Notes Protection Against Excessive High Contact Voltage Protection Against Escaping Laser Light Protection Against Physical Injury Protection Against Fire in Racks or Housings Components Subject to Electrostatic Discharge Handling Modules (General) Handling Optical Connectors and Fiber Optic Lines Declaration of CE Conformity RoHS Declaration of Conformity WEEE Requirements

1.1 General Notes This section contains a summary of the most important requirements with regard to protection of people and equipment. It lays no claim to completeness. The installation instructions listed are shown in detail in this document.

All assembly, installation, operation and repair work may only be undertaken by properly trained and qualified personnel. In the event of any injury (e.g. burns and acid burns) being sustained, seek medical help immediately.

V5812G is designed for indoor operation only and must be installed in temperature-controlled locations (for example the exchange). The switch are intended for operation according to EN 300 019-1-3 class 3.1E.

In order to prevent product damage or accidents, do not install or operate the product at the place of bad condition: such as too high or low temperature, poor ventilation or airtight, high humidity, much dust, or much mechanical vibration.

The system V5812G is intended for installation locations with access authorization.

The system may be multiple power supplied: For complete disconnection from the power supply, note to disconnect also the redundant power supply. Switch off all concerning disconnect devices! The operating voltages are routed via the fuse panel which is located in the terminal panel of the rack. The fuse panel contains the circuit breakers. Make sure that the circuit breakers are switched OFF throughout installation!

Pay attention also to the high leakage current: Earth connection is essential before connecting the system with the telecommunication network.

There is a risk of explosion if battery is replaced by an incorrect type. Dispose of used batteries according to the instructions.

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1.2 Protection Against Excessive High Contact Voltage When dealing with the power supply or working on it, observe the provisions of VDE 0105 (operation of high-voltage equipment) Part 1, Section 9.3 (safety measures to be carried out) and the specifications of the European Norm EN 50110, Part 1 and Part 2 (Operation of electrical systems) at all times. Be sure to follow local national provisions regarding the handling of high-voltage equipment.

1.3 Protection Against Escaping Laser Light In order to avoid health risks, take care to ensure that any laser light escaping is not directed towards the eyes. Plug-in units equipped with laser light units may carry the laser symbol, but it is not required, see Fig. 1.1.

Fig. 1.1 Laser Symbol

To guard against any possible hazards, all optical transmitters are equipped with an automatic laser shutdown circuit. This trips if an input signal is missing at the relevant optical receiver, e.g. if the connection is interrupted.

Note that the laser safety shutdown must be always activated.

This preventive measure should also be followed to avoid any damage to health by making sure that escaping laser light is not directed towards the eyes.

When breaking laser connections, the following procedure should be followed, despite the presence of the laser shutdown circuit:

1. Pull out the plug-in unit about 5 cm. 2. Disconnect the optical fiber. 3. Pull out the plug-in unit completely.

1.4 Protection Against Physical Injury To avoid any damage or physical injury, you must read the guide and follow it. Never decompose the switch. Please, confirm the warning label of Fig. 1.2 on the rear panel of the switch.

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Fig. 1.2 Warning Label of Physical Injury Prevention

1.5 Protection Against Fire in Racks or Housings If the system is used in housing, the system must comply with the conditions for fire protection housing according to DIN EN 60950-1.

To comply with fire protection standards as defined in DIN EN 60950-1, a protective plate (C42165-A320-C684) must be fitted into the floor of ETSI and 19-inch standard racks. The rack must also meet the requirements of a fire-resistant housing as defined in DIN EN 60950-1.

1.6 Components Subject to Electrostatic Discharge Plug-in units are equipped with components subject to electrostatic discharge. Adhere to the relevant safety provisions.

When packing, unpacking, touching, pulling out, or plugging in plug-in units, it is essential to wear a grounding bracelet. This ensures that the plug-in units are not subject to electrostatic discharge.

Under no circumstances should you touch the printed conductors or components of plug-in units. Take hold of plug-in units by the edge only.

Once removed, place the plug-in units in the conductive plastic sleeves intended for them. Keep or dispatch them in the special boxes or transport cases.

Treat defective plug-in units with the same degree of care as new ones in order to avoid further damage.

Plug-in units in a closed and intact housing are protected in any case.

European Norm EN 50082-1 provides information on the proper handling of components which are subject to electrostatic discharge.

1.7 Handling Modules (General) When working with modules (plug-in units, subracks and shelters), the following points should be noted:

Existing ventilation equipment must not be changed. The sufficient air circulation must not be obstructed.

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Beware of rotating parts.

All slide-in units can be removed or inserted with the power still applied. To remove and insert the units you should use the two levers fitted to the front of the unit. A type label is fixed to one of the two levers providing information on the hardware and software version of the unit.

A label with the words HOT AREA is fixed to hot surfaces. This indicates a severe danger of injury. Shelters with a front door may only be operated when this door is closed. You should therefore remove the front door before doing the necessary work and replace it once you have finished your work.

There is a danger of injury if the door is left open.

When inserting and removing shelves and when transporting them, take their weight into consideration. Cables may never be disconnected by pulling on the cable. Disconnection/connection may only be undertaken by pushing in/pulling out the connector involved.

1.8 Handling Optical Connectors and Fiber Optic Lines Optical connectors are precision components, and must be handled accordingly. In order to guarantee that the optical connectors function without problem: Open optical connections must use a protective cap under all circumstances to pro- tect against physical damage and dirt. Before making connections, use isopropyl alcohol and non-fibrous cellulose to clean the faces of the connectors. Avoid impact stresses when handling connectors. Physical damage to the faces of optical connections impair transmission quality (higher attenuation). Avoid a bend radius in excess of 30 mm for fiber optic links.

1.9 Declaration of CE Conformity The CE Declaration of Conformity for the product is fulfilled only if all construction and cabling is undertaken in accordance with the manual and the documentation listed therein, e.g. installation instructions, cabling lists, etc.

Deviations from the specifications or unstipulated changes during construction, e.g. the use of cable types with lower shielding values are a violation of the CE requirements. In such cases, the conformity declaration is invalidated and the manufacturer is refused from responsibility. All liability passes immediately to those persons undertaking any unauthorized deviations.

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1.10 RoHS Declaration of Conformity We hereby confirm and assure that this product delivered for and to customers and any of its affiliates by July, 1st 2006 comply with the requirements of the restriction of the use of certain hazardous substances in electrical and electronic equipment (RoHS Directive 2002/95/EC RoHS) irrespective of whether the product itself is electrical or electronic equipment by means of the RoHS and does not contain any materials, which are forbidden or restricted according to RoHS.

The Directive and the related national laws in the EU-Member States require that from July 1st, 2006 all new electrical and electronic equipment delivered to our customers in the EU may not contain lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyls (PBB) or polybrominated diphenyl ethers (PBDE).

1.11 WEEE Requirements

All electrical and electronic products should be disposed of separately from the municipal waste stream via designated collection facilities appointed by the government or the local authorities.

The correct disposal and separate collection of your old appliance will help prevent potential negative consequences for the environment and human health. It is a precondition for reuse and recycling of used electrical and electronic equipment.

For more detailed information about disposal of your old appliance, please contact your city office, waste disposal service, the shop where you purchased the product or your Dasan Networks partner.

The statements quoted above are only fully valid for equipment which is installed in the countries of the European Union and is covered by the directive 2002/96/EC.

Countries outside the European Union may have other regulations regarding the disposal of electrical and electronic equipment.


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2 Overview V5812G is a compact GPON Optical Line Terminal (OLT) with a height of only 1U. This system is suitable for access lines used for Ethernet leased line services.

The GPON technology adds new features and functionality targeted at improving performance and interoperability, and adds support for new applications, services, and deployment scenarios. Among these changes are improvements in data rate and reach performance, diagnostics, and stand-by mode, to name a few.

The V5812G introduces a point-to-multipoint concept with the GPON technology, which enables a cost-effective FTTx service. The reason why GPON is considered as a cost-effective solution is its usage of a passive splitter rather than an active switching system.

The benefits of the passive splitter are as follows: No power supply / maintenance is needed. The splitter does not need any fiber optic transceiver. The number of fiber optic transceivers in the network is minimized.

There are different possible deployment topologies for GPON networks, which differentiate from each other basically from the place the optical fiber is terminated. Depending on the subscriber type and desired topology to the network, the operator may adopt: FTTH (fiber to the Home), FTTB (fiber to the Building), FTTN (fiber to the neighborhood) or FTTC (fiber to the Curb). In case of very high bandwidth requirement per user, scenarios without splitters offering 2.5Gbps/1Gbps (downstream/upstream) data rate can also be deployed by connecting only the single user on a GPON port.

Central Office

IP DSLAM

OLT

OLT

Server

VoIP

PC

FTTB

FTTC / FTTN

Shelf-basedDSLAM

HDTV

VoIP

PC

Street Curb or Cabinet

L2 Switch/ONU

VoIP

PCONU

HDTV

FTTH

Fig. 2.1 FTTx Service Deployments of GPON OLT


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The V5812G provides four GPON ports on the front panel, each delivering 2.5Gbps downstream and 1.0Gbps upstream. Each GPON port supports a pluggable SFP laser module that allows selection of the best speed and power to meet network requirements. It is comprised of 8 electrical and optical combo GE interfaces as uplink towards the core network and these interfaces can be used either to cascade other switches or to connect to a collocated DSLAM. The MGMT and console interface is located on the most left of the front panel with embedded LED for LNK/ACT and TX/RX indication respectively. They are for use of equipment management via remote access or CLI.

Fig. 2.2 Front View of V5812G

Name Function Connector Type

c MGMT Outband TMN-OS Interface RJ45 d CONSOLE CLI access to configure the functions for system

operation RJ45 (RS232)

e GPON Interface 4 GPON OLT ports SFP f Uplink GE i/f Connection to the IP network with optical or electrical

type interfaces

8 x 1000Base-X or 10/100/1000Base-T

RJ45 or SFP (combo)

Tab. 2.1 Front Access Interface of V5812G

c

d

e

f


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The V5812G has two Power Supply Unit (PSU) mounting slots on the rear panel. Each PSU is comprised of single DC or AC power input. For power redundancy, user can equip dual PSUs into 2 slots. Install an appropriate PSU between AC type and DC type according to your installation environment.

The following figure shows the rear panel of V5812G.

Fig. 2.3 Rear View of V5812G

Name Function

c Power Module Mounting AC or DC type power module d Grounding Terminal Grounding the switch to avoid electric shock

Tab. 2.2 Rear Access Interface of V5812G

c

d


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2.1 Physical Specification

Interface Parameter

PON i/f 4 x GPON (SFP) Gigabit Ethernet i/f 8 x 10/100/1000Base-T or 100/1000Base-X (Combo uplink ports)

Ethernet i/f for local management 10/100Base-TX (RJ45) Serial i/f, Console RS232

Mechanics

Dimensions (W x D x H) 432 mm x 300 mm x 43 mm

Weight 3.9 kg (without power module)

Minimum free space above switch 50 mm Minimum free space below switch 25 mm Frequency 50/60Hz Operating Temperature -4~140F (-20~60C) Storage Temperature -40~158F (-40~70C) Operating Humidity Range 0~90% (non-condensing)

Power Supply

DC power voltage -48 VDC AC power voltage 100-240 VAC, 50/60Hz Maximum power consumption 45W

Operating Indicators

System LEDs RUN / DIAG / PWR A / PWR B PON i/f LEDs L/A Uplink GE i/f LEDs L/A, 1G Console RX / TX MGMT LNK / ACT


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2.2 Status LEDs on V5812G

Fig. 2.4 LEDs on the front panel

LED signaling is described in the following tables: For operating status LEDs on V5812G, see Tab. 2.3. For status LEDs on the V5812G for the MGMT interface, see Tab. 2.4. For status LEDs on the V5812G for the Console, see Tab. 2.5. For status LEDs on the V5812G for GPON ports, see Tab. 2.6. For status LEDs on uplink interface (optical), see Tab. 2.7. For status LEDs on uplink interface (electrical), see Tab. 2.8. For status LEDs on PSU, see Tab. 2.9.

Operating Status LEDs on V5812G

The V5812G is equipped with three LEDs to indicate the operating status of the unit.

Label Color Status Description

On The system is starting up to boot.

Blinking The system is running with no errors.

Green

Off The system is not supplied with power.

RUN

Amber Blinking CPU load is high.

On The Diagnostic test is failed.

Blinking The fan fault or overheating has occurred.

DIAG Amber

Off The system is running with no errors.

On PSU A/B is installed, and power voltage is fed to the system. Green

Off PSU A/B is not installed.

PWR A/B

Amber On PSU A/B is installed, but power voltage is not fed to the system.

Tab. 2.3 Operating Status LEDs on V5812G

Operating Status LEDs

Service Interface LED

MGMT Interface LED

Console Access LED Uplink Interface LED

(100/1000BASE-X, SFP) Uplink Interface LED (10/100/1000BASE-T, RJ-45)


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MGMT Interface LEDs


On Link Up LNK Green

Off Link Down

Blinking A transmit or receive activity is present on the MGMT Interface. ACT Amber

Off No transmit or receive activity is present on the MGMT Interface.

Tab. 2.4 MGMT Interface LEDs

Console Interface LEDs


Blinking A transmit activity is present on the console. TX Green

Off No transmit activity is present on the console.

Blinking A receive activity is present on the console. RX Green

Off No receive activity is present on the console.

Tab. 2.5 Console Interface LEDs

Status LEDs on GPON Ports


On The port link is up.

Blinking A transmit or receive activity is present on the port.

LNK/ACT Green

Off The port link is down.

Tab. 2.6 Status LEDs on GPON Ports

Status LEDs for Uplink Interface (optical)


On The interface is connected to a network. (1Gbps)

Blinking A transmit or receive activity is present on the Ethernet line.

L/A Green

Off The interface is not connected to a network.



1G Amber


Tab. 2.7 Status LEDs for Uplink Interface (optical)


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Status LEDs for Uplink Interface (electrical)




L/A Green




1G Amber


Tab. 2.8 Status LEDs for Uplink Interface (electrical)

Fig. 2.5 Front View of the PSU (AC Type)

Fig. 2.6 Front View of the PSU (DC Type)


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Status LEDs on PSU

The PSU includes two LEDs to indicate the status of the power feeding and alarm. The green LED PWR displays power feeding, and the red LED ALARM displays the operating status.


On PSU is installed, and power voltage is fed to the system. PWR Green

Off PSU is not installed or is not supplied from the power source.

On Power output fault has occurred. ALARM Red

Off Power voltage is fed to the system with no errors.

Tab. 2.9 Status LEDs on PSU

2.3 Rack Installation Infrastructure

The V5812G is designed for indoor operation in the central office or collocation room with controlled environmental conditions (ETS 300 019-1-3 or Bellcore GR-0063). The network equipment is located in a central office. Each type of location is characterized by a typical technical infrastructure. A possible rack configuration is rack row.

Doors and rear panels are not provided. Additional components are needed to adapt the network equipment on the existing infrastructure.

The technical infrastructure of a central office is characterized by: power supply 48 DC voltage or 100 to 240 VAC indoor conditions short interconnections to other equipment The dimensions of the racks are shown in Tab. 2.10.

Rack Type Height Width Depth

19 2200 mm (86.6 in) 600 mm (23.6 in) 400 mm (15.7 in)

ETSI 2200 mm 600 mm 300 or 600 mm

Tab. 2.10 Rack Type Measures

2.4 Items Supplied You have some accessories belonging to the V5812G. Please verify the delivered items with the following package contents. If any item is missing or damaged, contact your dealer immediately.

The following items indicate the package contents of V5812G switch:

V5812G switch RJ45-to-DB9 console cable for console access (2 meters) Category 5 Ethernet UTP cable 3W3 DC power cable (3 meters for DC type power) AC power cable (1.8 meters for AC type power) 19" rack brackets


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3 Setting Up the Rack When setting up the rack, you must first install the rack and then the switch. Refer to the assembly documents.

3.1 Constructing the Rack To construct the rack:

1. Erect and secure the rack. Use the assembly documents for installing the rack.

Be sure to consult your rack configuring plan when positioning and securing the rack.

2. Ground the rack. The rack and the switch must always be grounded. In unmeshed buildings, the rack is grounded by attaching it to a secure grounding source where indicated with the symbol in Fig. 3.1. Be sure that it is tightly fastened with the screws provided.

Fig. 3.1 Grounding Symbol

After the rack has been constructed, you can equip it.

Fig. 3.2 19 Rack (Sectional View)

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600465.1

2200

2000

.25(45U

)

Fig. 3.3 19 Rack (Front View)


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3.2 Equipping the Rack

3.2.1 Installing the Switch

To install the switch:

1. Attach the rack brackets to the edge sides of the switch as Fig. 3.4.

Fig. 3.4 Attaching the Rack Brackets

For equipping the system in ETSI rack, use the ETSI rack mount kit. i


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2. Attach the switch by inserting the cage nuts in the rack uprights in accordance with your rack configuring plan.

Fig. 3.5 Attaching the Switch to the Rack

3.2.2 Grounding the Switch

The switch must always be grounded. Following grounding method is used for the V5812G: In a rack, as the only installation variant, the V5812G is grounded by screw connection with the grounded rack. Pay attention to strong screw connections.

Fig. 3.6 Grounding the Switch


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4 Equipping the Switch

4.1 Installing PSU The V5812G provides AC and DC type PSU, so you can choose proper power supply according to installation environment. The switch can be equipped with up to 2 PSUs for redundant and load-balanced power feeding. The different type of PSUs can be installed simultaneously.

Insert the PSUs into the PWR A and B slots in the switch.

When installing the PSUs, note the followings: When inserting the PSUs, observe the relevant safety provisions for protecting the modules (see Section 1.6). When inserting the PSUs into the slots, be sure to insert them inside the slot guides. After inserting the PSUs, the thumbscrews should be tightened with a tool. Install the blank panel on not equipped place, it is necessary to keep EMC.

Use the following procedure when installing a PSU.

1. Verify that a PSU slot is empty. 2. Insert a PSU into a slot that you intend to install. 3. Tighten the thumbscrews on each end of the front panel of PSU, as shown arrows in Fig. 4.1. 4. If the other slot will remain empty, install a blank panel on it.

Fig. 4.1 shows how to install the power modules (applicable to the DC type power module as well).

Fig. 4.1 Installing PSU (AC Type)


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4.2 Components for the V5812G

4.2.1 Bases

Name Part Number Description Maximumquantity

V5812G DPW:G-S-5812G0-01 4 Blank GPON SFP slot, 8 Port Combo GbE, 2 Blank Power Supply Module Slot, 40MB Flash, and 512MB DRAM

1

Tab. 4.1 Base Options

4.2.2 SFP Options


SFP-GE-SX DDJ:G-M-SFPSX0-01 SFP GE SX -. Wavelength: 850nm / Distance: 550m / Mode: multimode -. Connector: LC / Data rate: 1.25Gbit/s / Core type: Dual Core -. Operating Temperature: 0 C ~ 70 C -. RoHS compliant product

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SFP-GE-LX10 DDJ:G-M-SFPSX0-21 SFP GE LX10 -. Wavelength: 1310nm / Distance: 10km / Mode: singlemode -. Connector: LC / Data rate: 1.25Gbit/s / Core type: Dual Core -. Operating Temperature: 0 C ~ 70 C -. RoHS compliant product

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SFP-GE-LX20 DDJ:G-M-SFPSX0-31 SFP GE LX20 -. Wavelength: 1310nm / Distance: 20km / Mode: singlemode -. Connector: LC / Data rate: 1.25Gbit/s / Core type: Dual Core -. Operating Temperature: 0 C ~ 70 C -. RoHS compliant product

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SFP-GE-LX40 DDJ:G-M-SFPSX0-41 SFP GE LX40 -. Wavelength: 1310nm / Distance: 40km / Mode: singlemode -. Connector: LC / Data rate: 1.25Gbit/s / Core type: Dual Core -. Operating Temperature: 0C ~ 70 C -. RoHS compliant product

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Tab. 4.2 SFP Options

4.2.3 SFP-GPON Options


SFP-GPON-OLT20 DDJ:G-M-SFPGPL-21 SFP GPON OLT

-. Wavelength: 1490nm/1310nm / Distance: 20km / Mode: singlemode -. Connector: SC/PC / Data rate : 2.5Gbit/s (Up), 1.25Gbit/s (Down) -. Core type : Single Core / Operating Temperature : -40 C ~ 85 C

4

Tab. 4.3 SFP-GPON-OLT Options


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5 Cabling the Switch Complete the following connections:

1. Connecting Uplink Interface 2. Connecting the PON Interface 3. Connecting Outband MGMT Interface 4. Connecting the Console Access 5. Connecting Power Supply

Use the cable sets appropriate to your application, and consult your cabling plan for the required cable types for the various connecting cables: Category 5 Ethernet UTP cable Optical waveguide (OWG) cable Cable with connectors attached The necessary steps for wiring are described in the following sections.

5.1 Connecting Uplink Interface The V5812G single-board GPON OLT provides 8 ports of 1000Base-X optical and 10/100/1000Base-T electrical combo interfaces as the GE interfaces of uplink service.

The uplink interface configuration must be one of the followings: Optical interfaces only Electrical interfaces only Mixed assembly (but not optical and electrical interface with the same number)

5.1.1 Installing Optical Connection

The V5812G provides SFP uplink slots, which require their own additional optical module. You can select the proper optical module in Tab. 4.2. In this section, the case of installing an optical connection with the LC type SFP module is described.

Fig. 5.1 shows an example of a SFP module.

Fig. 5.1 SFP module for Gigabit Ethernet (GbE)


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Use the following procedure when installing the optical connection with the LC type SFP module.

1. Cut the optical cables with LC connector to length. 2. Attach the LC connectors. 3. Label and mark the cables. 4. Route and stow the cable in the rack. 5. Insert the SFP module into the service slot for optical connection. 6. Install the cables in accordance with your cabling plan. 7. Connect the fiber optic cable to SFP module.

Fig. 5.2 shows how to install SFP module and fiber optic cable.

Fig. 5.2 Installing the Optical Connection with SFP Module

5.1.2 Installing Electrical Connection

According to the network or installation environment, you can use 10/100/1000Base-T interface instead of the optical connection. The V5812G automatically recognizes MDI/MDIX connectors defined in IEEE 802.3.

Fig. 5.3 RJ45 Connector

Use the following procedure when installing an electrical connection.

1. Cut the cables to length. 2. Label and mark the cables. 3. Route and stow the cable in the rack. 4. Install the cables in accordance with your cabling plan. 5. Connect the cable to a suitable electrical port.


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Fig. 5.4 describes how to connect the cable to 10/100/1000Base-T interface.

Fig. 5.4 Installing the Electrical Connection


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5.2 Connecting the PON Interface

The V5812G provides up to 4 GPON ports and each PON port can be connected to 64 ONTs via passive optical splitter.

1. Cut the cables to length. 2. Attach the SC connectors. 3. Label and mark the cables. 4. Route and stow the cable in the rack. 5. Insert the SFP module into the service slot for GPON connection. 6. Install the cables in accordance with your cabling plan. 7. Connect the fiber optic cable to SFP module.

Fig. 5.5 shows how to install SFP module and GPON cable.

Fig. 5.5 Installing the GPON

Be sure to check the connector type when cabling PON lines. SC/PC type (green) con-nector should be connected to GPON interfaces on the V5812G, and SC/PC type (blue) connector should be connected to ONU (ONT) side.

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5.3 Connecting Outband MGMT Interface

Use this procedure when connecting the 100Base-T outband MGMT interface.

1. Cut the cables to length. 2. Attach the RJ45 connector to the cable. 3. Label and mark the cables. 4. Route and stow the cable with the RJ45 connector in the rack. 5. Connect the cable to the MGMT interface on the front panel of the V5812G.

Fig. 5.6 shows how to connect the outband MGMT interface.

Fig. 5.6 Connecting MGMT Interface


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5.4 Connecting the Console Access

The V5812G provide the console access to configure the switch locally with command line interface (CLI). The RJ45-to-DB9 console cable will be delivered as a basic delivery package.

1. Connect DB9 connector of the supplied RJ45-to-DB9 console cable to the serial interface of the PC. 2. Connect RJ45 connector of the cable to the console interface on the front panel of the V5812G.

Fig. 5.7 shows how to connect the RJ45-to-DB9 console cable to the console interface.

Fig. 5.7 Connecting the Console Access


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5.5 Connecting Power Supply

You can connect either the DC or AC power supply to the system according to its PSU type. Both type of PSU is installed on the rear panel. Each type of PSU has a single power input.

5.5.1 Connecting AC Power Supply

To connect the operating voltage line to AC power supply and to the system:

1. Connect the provided AC power cable to AC power connector on the PSU. 2. Connect the other end of the power cable to AC power supply.

Fig. 5.8 describes how to connect the AC power cable.

Fig. 5.8 Connecting the AC Power Cable

Make sure the power switch is in the OFF position before connecting.

You are now ready to commission the system. For more information, see your network configuring documentation.

!


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5.5.2 Connecting DC Power Supply

To connect the operating voltage line to DC power supply and to the system:

1. Connect the provided DC power cable to DC power connector on the PSU. 2. Connect the other end of the power cable to DC power supply.

Fig. 5.9 describes how to connect the DC power cable.

Fig. 5.9 Connecting the DC Power Cable

Make sure the power switch is in the OFF position before connecting.

You are now ready to commission the system. For more information, see your network configuring documentation.

!


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6 Abbreviations

AC Alternating Current

CE Communaut europenne, European Community

CO Central Office

CPE Customer Premises Equipment

EMC Electro-Magnetic Compatibility

EN European Norm

ETS European Telecommunication Standard (defined by ETSI)

ETSI European Telecommunications Standards Institute

FE Fast Ethernet (100 Mbps)

GBIC Gigabit Interface Converter

GE Gigabit Ethernet (1 Gbps)

GPON Gigabit Passive Optical Network

HW Hardware

IEC International Electrotechnical Commission

IEEE Institute of Electrical and Electronic Engineers

IP Internet Protocol

LED Light Emitting Diode

MDI Medium Dependent Interface

MDIX Medium Dependent Interface Crossover

MMF Multimode Fiber

ONU Optical Network Unit

OWG Optical Waveguide

RJ45 Registered Jack 45

RoHS Restriction of the use of certain Hazardous Substances

SFP Small Form-factor Pluggable

SMF Singlemode Fiber

SW Software

UTP Unshielded Twisted Pair

VDE Association for Electrical, Electronic & Information Technologies

WEEE Waste Electrical and Electronic Equipment

1 Protective Measures 1.1 General Notes 1.2 Protection Against Excessive High Contact Voltage 1.3 Protection Against Escaping Laser Light 1.4 Protection Against Physical Injury 1.5 Protection Against Fire in Racks or Housings 1.6 Components Subject to Electrostatic Discharge 1.7 Handling Modules (General) 1.8 Handling Optical Connectors and Fiber Optic Lines 1.9 Declaration of CE Conformity 1.10 RoHS Declaration of Conformity 1.11 WEEE Requirements 2 Overview 2.1 Physical Specification Status LEDs on V5812G 2.3 Rack Installation 2.4 Items Supplied

3 Setting Up the Rack 3.1 Constructing the Rack 3.2 Equipping the Rack 3.2.1 Installing the Switch 3.2.2 Grounding the Switch

4 Equipping the Switch 4.1 Installing PSU 4.2 Components for the V5812G 4.2.1 Bases 4.2.2 SFP Options4.2.3 SFP-GPON Options

5 Cabling the Switch 5.1 Connecting Uplink Interface 5.1.1 Installing Optical Connection 5.1.2 Installing Electrical Connection

5.2 Connecting the PON Interface 5.3 Connecting Outband MGMT Interface 5.4 Connecting the Console Access 5.5 Connecting Power Supply 5.5.1 Connecting AC Power Supply 5.5.2 Connecting DC Power Supply

6 Abbreviations

Documents

V5812G_IMN_V1_EN