lu comms spec v2f with appdx

8/12/2019 LU Comms Spec v2f With Appdx

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Lancaster University: ISS

CommunicationsRoom Specifications

v2fV2f

Ian Anderson

04/12/2013


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Revision History

Date Version Author Comments

24/01/11 2b IA Issue to Facilities PMs for comments

07/02/2011 2c IA First Issue

28/04/2011 2d IA Addition of fire alarm fibre panel, Chamber drawings, acoustic

requirements

18/12/2012 2e IA Minor revisions, some should to must grammar changes, addition

of specific part code for Rittal cabinet. Reduction in

recommendation for number of datalines. Changes to

distribution schedule to reflect organisation changes. Changes to

example cabinet layout. Change to OM3 for F-Tube Fibre. Change

to fibre testing standards. Change of background heading to

scope. Confirmation that this is a specification and not a design.

04/12/13 2f IA Minor revisions, chance of contacts, rack layout change, new

email address to use for test results, change of partcode for Rittal

cabinets, substantial changes to CW1308 requirements

Distribution Schedule

Name Title

Paul Harness Director ISS

Mark Jameson Head Technical Infrastructure ISS

Craig MacDonald Head of Networking

Paul Boyd Senior Network Specialist

Mark Swindlehurst Director Facilities

Mike Sheppard Deputy Director Facilities

Simon Corless Electrical Engineer

Suzanne Parkinson Senior Project Manager

Peter McMullen Senior Project Manager

Stuart Foy Senior Project Manager

Helen Wood Senior Project Manager

Anna Cockman Project Manager

John Lee Assistant Project Manager


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Table of ContentsRevision History ...................................................................................................................................... 1

Distribution Schedule .............................................................................................................................. 1

Scope ....................................................................................................................................................... 4

Document Location ................................................................................................................................. 4

Definition of Major Project ...................................................................... Error! Bookmark not defined.

Change Control ....................................................................................................................................... 4

Decision Points & Exceptions .................................................................................................................. 4

Recommended Models ........................................................................................................................... 4

ISS Contacts ............................................................................................................................................. 5

Project Manager: Physical Infrastructure ....................................................................................... 5

Site & Contractor Liaison ................................................................................................................ 5

Escalation ........................................................................................................................................ 5

Norms ...................................................................................................................................................... 5

Installation Standards ............................................................................................................................. 5

Communications (Comms) Room(s) ....................................................................................................... 5

Location ............................................................................................................................................... 6

Use ...................................................................................................................................................... 6

Security ............................................................................................................................................... 6

Size ...................................................................................................................................................... 6

Finishes ............................................................................................................................................... 7

Lighting ................................................................................................................................................ 7

Environmental ..................................................................................................................................... 7

Power .................................................................................................................................................. 8

Earthing ............................................................................................................................................... 8

Acoustics ............................................................................................................................................. 8

Cabinets .................................................................................................................................................. 8

UPS ........................................................................................................................................................ 10

Power Distribution ................................................................................................................................ 10

Fibre ...................................................................................................................................................... 10

Option 1 Halo Fibre ........................................................................................................................ 10

Termination ................................................................................................................................... 11

Option 2 Link to Adjacent Building ................................................................................................ 11

Internal Building Fibres ..................................................................................................................... 11


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Fire Alarm Fibres ............................................................................................................................... 11

Labelling ............................................................................................................................................ 11

Testing ............................................................................................................................................... 12

Test Limits ......................................................................................................................................... 13

Example Test Spreadsheet ................................................................................................................ 13

Ductwork ............................................................................................................................................... 13

Main Duct .......................................................................................................................................... 13

Subduct ............................................................................................................................................. 14

Chambers .......................................................................................................................................... 14

CW1308 Copper .................................................................................................................................... 14

CAT6 Cabling ......................................................................................................................................... 15

Wireless ................................................................................................................................................. 16

Appendix A Supplier Contacts ............................................................................................................ 18

Appendix B - Datasheets ....................................................................................................................... 19


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ScopeThis document exists to assist design teams in planning for a where a new or refurbished

communications room, fibre or copper infrastructure may be required whether as part of a new

building or a refurbishment. It also contains specification elements for where additions to an existing

communications room are required.

This document is a specification and nota design, the design team(s) for the project must translate

these specifications into a final design for approval by ISS.

This document must be read in conjunction with the latest ISS Cabling Specification and

commissioning specification.

Document LocationThe most recent version of this document can always be found at

http://www.lancs.ac.uk/iss/network/physinfstandards/

Change ControlUpon each revision of this document, it will be issued to those named on page one. It is the

responsibility of each design team to ensure that they are using the most recent revision of the

document. If a new revision is released prior to tender stage then it is expected that the design shall

be modified to take account of the most recent specification. Any changes post-tender stage shall

only be required following a change control request from ISS.

Decision Points & ExceptionsThis document is a guidance note on the minimum requirements from ISS; all key design decision

points should be discussed and accepted by ISS; as a minimum these should include.

Location & Size of Communications Room(s)

Fibre & Duct Routes

Position of Wireless Access Point Locations

Any deviations from this document should be agreed in writing by ISS.

Should the Contractor identify any discrepancies between this specification and any design package,

this shall immediately be drawn to the attention of ISS. For the purpose of any pricing, the

Contractor shall allow for the most onerous services installation to meet the requirements.

Recommended ModelsWhere a recommended model is specified within the text of this document it is made either on the

basis of a technical evaluation or procurement exercise. Where available, datasheets for

recommended items are reproduced in appendix A. Any substitutions for the recommended models

should be requested in writing and approved by ISS.
http://www.lancs.ac.uk/iss/network/physinfstandards/http://www.lancs.ac.uk/iss/network/physinfstandards/http://www.lancs.ac.uk/iss/network/physinfstandards/


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Location

The comms room must be located so that the maximum electrical length of datalines emanating

from it do not exceed 90.0 metres. It is strongly preferred that the number of comms rooms within a

building is minimised. Where more than one comms room is required, one room will be designated

a primary comms and the others secondary.

All comms rooms within a building must be located so that they are accessed from a corridor or

public space. It must not be necessary to access another space such as an office, meeting room or

plant room in order to access the comms room, equally, access to other spaces must not be via the

comms room.

Use

The comms room must only be used for the housing of ISS Networking equipment used to support

the delivery of network services to the building. For the avoidance of doubt this excludes anything

not in the list below unless approved in writing from ISS;

Data Cabinets CAT6 Cabling CAT6 Patch Panels

Fibre Cabling Fibre Patch Panels UPS

Data Switches CW1308 Cabling Voice Panels

Security

The comms room must be fitted with a Grovsenor/Janus IDCe access control system (please refer to

the ISS Access Control Specifications for full details).

The comms room should be fitted with an Abloy EL560 lock mechanism configured to fail secure, no

fire alarm interlink is required. A lock barrel from the ISS Comms room suite (suite 689) should be

fitted within the EL560, four keys should be supplied with each lock. No vision panel should be fitted

to the door. The room should be fitted with at least one heat/smoke detector connected to the main

building fire alarm system.

Size

The size of the comms room is a function of the number of lines that will be fed back to the room in

the finished building. Each cabinet can house a maximum of 384 datalines, plus one additional

cabinet footprint is required for expansion. The cabinets in use are 800mm wide x 1000mm deep so

by knowing the number of datalines to be installed, the minimum size of the comms room can becalculated

Example:


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1000 384 = 2.6 = 3 + 1

5250mm

3000mm

Cabinet

A

1000mm

1000mm

1000mm

1000mm

Cabinet

B

Cabinet

C

The clearances in the drawing above should be clear space within the room; any protrusions into the

room such as boxed in girders should be deducted from the available space. The door opening and

delivery route to the room should be sized to allow the delivery of an 800 mm wide x 2.2 metre high

cabinet without tilting.

FinishesWalls must be painted white or cream.

Floors should be low dust, anti-static. Carpets will not be accepted. Where a raised floor is in use,

pre-finished vinyl tiles should be installed.

Lighting

The room should be provided with high-temperature fluorescent lighting to provide 500lux at floor

level. Fittings should be positioned parallel to the front and rear of the rack so as to provide good

working illumination front and rear of the rack.

All light fittings must be installed below any high-level containment, ductwork or other installations.

If the lights are controlled by motion sensors the number and position should be such that full room

coverage is provided for a single person working at any position or elevation within the room.

Manual light switches must be located adjacent to the entry door; they must not be located to the

hinge side of the door opening. Emergency lighting must be provided within the room.

Environmental

The room will house UPSs containing sealed lead-acid batteries which require controlled

environmental conditions and so must be controlled to a minimum temperature of 18C and a

maximum of 24.0C with a humidity range of 15% - 95.0% non-condensing. The anticipated heat load


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per cabinet is estimated to be 2kW. Where air-conditioning is provided, duty-only is required and

units must be installed so as to deliver cooled air to the front face of the cabinet(s).

Power

Each cabinet must be provided with 2no 16A commando socket to BSEN 60309 on a dedicated

circuit, to be protected by 2no 16A Type C MCB. Each pair of sockets feeding a single cabinet must

be fed by a readily accessible 4-pole rotary isolator switch providing simultaneous isolation to both

sockets. The isolator switch is to be located on the wall immediately behind each cabinet.

It is preferred that sockets are located at high-level above the rear of each cabinet and not

obstructed by basket, tray work or other services.

In addition to the commando sockets, 4no general sockets should be provided to the perimeter of

the room to provide general power; these should be provisioned from the building general ring.

EarthingAdjacent to each pair of power sockets outlet a copper earth bonding bar with a minimum of 4

unused M8 hex-headed bolt attachment points must be provided. Each earth bar must be

individually bonded back to the mains distribution point that feeds the 16 amp sockets.

Acoustics

The room will house equipment which will emit noise, coordination is required between the design

team to mitigate the transference of this noise to surrounding areas, as a guide each cabinet to be

installed in the room will contain the following equipment.

Equipment Qty Noise Output (each)

Edge Switch 8 53.5 dBA,

Aggregation Switch 2 55dBA

UPS 1 53dBA

CabinetsCabinets installed must be Rittal IT Cabinet, 800mm wide x 1000mm deep x 42U high with 78%

perforated wardrobe doors front and rear. The cabinet must be supplied with the internal earth

bonding kit and bar. Cabinets must be installed in a line and bayed together with a divider panel

between each cabinet. Side panels at the end of the row must be fitted. All components of the

cabinet including doors, rails and side panels must be bonded to the earth bar.


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An example cabinet should be laid out as follows, it is recommended that individual cabinet layouts

are discussed and agreed with ISS during the detailed design phase;

1

6U SpliceUK Chassis

2

34

5

6

7

8 Horizontal Cable Management

9 24 Port Voice Panel

10 Horizontal Cable Management

11 24 Port CAT6 Panel PP16


13 Space for 48 port switch











24

24 Port CAT6 Panel PP7












37 24 Port Voice Panel

38

UPS

39

40

41

42


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UPS

Each cabinet must be supplied with a UPS; the performance specification of the UPS should be;

Capacity of 3000VA

On-line, double conversion

At least 30 mins runtime at 1000W load

8 C13, 2 C19 Outlets

Fitted with a SNMP Management card providing temperature and humidity monitoring.

3U high, rack mounted.

The batteries, as supplied must be less than 6 months from date of manufacture.

The UPS should be fitted with a 16A commando input plug. The UPS should be installed into the

cabinet and connected to one of the provided 16A sockets.

The current model recommended by ISS is an APC SURTD3000RMXLI fitted with an AP9631.

Power DistributionEach cabinet must be provided with a power distribution unit (PDU). This should provide 20 C13 and

4 C19 outlets, be fed via a C20 input plug and provide an IP-enabled power meter. The PDU should

be zero-U vertically mounting.

The current model recommended by ISS is an Eaton PW104MI0UB97

FibreDepending on the size, location and purpose of the building, the building may require to be

connected to the Campus Halo, a network of fibre duct running around the perimeter road.

Alternatively, the building may connect to an adjacent building that is connected to the Halo. This

decision needs to be taken in early stage discussions with ISS so that appropriate designs can be

taken for duct routes into the building.

Option 1 Halo Fibre

The building will need to connect to the Halo ductwork (see duct & subduct sections below). Into

this ductwork the building needs to connect to the following locations.

Faraday Building LA31

ISS Building B18

The fibre installed should be a hybrid, 96 core OS1 G.652, 24 core OM2 loose tube, 12f per tube

internal/external grade cable. The current cable recommended by ISS is Brand Rex

HF(96x008+24x050)S120WLU.

One cable will use a clockwise direction around the Halo to get to its destination location; the other

will use an anti-clockwise direction. Routes and subduct allocations will be advised by ISS.


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For each wavelength, loss budget for fibre under test (total allowed connector loss + total

allowed splice loss+ (measured length in km * manufacturers quoted loss figures for each of

the test wavelengths as detailed above, dB/km))

For each fibre and each wavelength.

Fibre identification (fibre number and type (sm or mm)).

ILM loss direction A

ILM loss direction B

ILM average of loss in direction A and direction B

ILM headroom (ILM budget average ILM)

Loss at each connector and at each splice from direction A

Loss at each connector and at each splice from direction B

For each connector loss, the mean average loss in both directions

For each splice loss, the mean average loss in both directions

Additionally, the OTDR traces should be provided.

Test Limits

At all times the maximum individual splice loss must be less than or equal to 0.250dB.

At all times individual connector loss must be less than or equal to 0.50dB and must be

repeatable across multiple remove insert cycles.

Return loss for single mode connections must be greater than or equal to 26.0dB with a

mean average value of 50.0dB.

Return loss for multi-mode connections must be greater than or equal to 20.0dB with an

mean average value of 30.0dB

Return loss per splice must be greater than or equal to 40.0dB.

Example Test Spreadsheet

An example sheet of test results is available at

http://www.lancs.ac.uk/iss/network/physinfstandards/fibre-testing-example.xlsx

DuctworkWhere the building is required to connect to the Halo infrastructure, then new ductwork will be

required, this will comprise of main duct and associated subduct.

Main Duct

The Halo infrastructure runs around the perimeter road and down selected avenues on Campus. ISS

will identify an appropriate interconnection point on the Halo for the building to link to. A new

section consisting of 2no main ducts will be required from the building to the nominated connection

point, this should include any required turning or pulling chambers. The duct provided must be

suitable for subducting so care must be taken at any point of change of direction to ensure that the

minimum bend radius of the subduct can be satisfied.

The main duct used in the Halo is Emtelle Solidwall uPVC duct 96.5 outside diameter, 90mm inside

diameter, colour green.
http://www.lancs.ac.uk/iss/network/physinfstandards/http://www.lancs.ac.uk/iss/network/physinfstandards/


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The bends used on this ductwork must be suitable for 4-way subducting, the sharpest bends used

must be 22.5 over a length of 700mm, such that the minimum bend radius for the subduct is not

exceeded. Only full lengths proprietary bends suitable for use as part of the ductwork system will be

acceptable i.e. used as supplied and not cut or modified.

Any ductwork installed should be brushed, and then tested with a dumbbell mandrel with a

diameter of 7% less than the duct immediately following installation and prior to subducting. This

process must be made available for witness testing by ISS.

Any main duct not subducted should be provided with a draw rope.

The Halo duct systems, either existing or installed as part of a project are only to be used to carry ISS

fibre infrastructure.

Subduct

One of the two main ducts installed to the building must be subducted with 4-way subduct. The

subduct used in the Halo is Emtelle 32mm outside diameter, 27mm inside diameter in colours;

orange, green, blue, black. Each subduct should be provided with a draw rope. Once installed, all

subduct sections should be coupled-through with aluminium screw-on couplers. Unused subducts

must be capped.

It may be necessary for the project to subduct a section of the main Halo; this requirement should

be discussed and agreed with ISS early in project design.

Chambers

Any chambers used for pulling or turning should be standard BT F6, F10 or their carriageway

equivalent. Chambers must be constructed of in-situ poured concrete. Pre-cast or plastic chambers

are not acceptable. Chamber frames and lids appropriate to the expected traffic loading must be

fitted. Diagrams of common chambers can be found in the appendices.

All ducts entries into chambers should either be cast or core-drilled in. A 25mm space both

horizontally and vertically should exist around each duct entering a chamber. Ducts should enter

chambers at right angles to the wall. Care should be taken when selecting entry and exit points to a

chamber to ensure the minimum bend radius of the subduct within the chamber can be satisfied.

When it is necessary to drop a chamber onto an existing section of the Halo Infrastructure, it must

only be done when that route is agreed with ISS and the works to create that chamber must becoordinated with, and performed by a contractor approved by ISS to ensure minimal risk to the live

services contained within the existing chamber.

CW1308 CopperA suitably-rated 100 pair cable to either BT specification CW1308 or CW1308b as appropriate should

be installed to the comms room from the nearest main metallic distribution point (DP) advised by

ISS. The cable must be installed as a single continuous run, with no joints. The conductor in the

cable must be solid 0.5mm copper, jelly-filled cables must not be used, the earth continuity

conductor must be connected to the common earth block at both the originating and supplied DP.


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Within the comms room this should be installed onto an Austin Taylor 108A double vertical frame

(AT-108A) with Krone 237A disconnect terminal strips.

At the MDF location, the cable should be terminated onto Krone 237A disconnect terminal strips to

be installed into an existing frame or housing, or a new 108A vertical frame or other appropriate

housing as advised by ISS may be required. One Krone 237A disconnect strip with screw terminals

(7004 2 001-01) should be provided on the frame installed at the bottom position of the cabinet-

bound circuits vertical to facilitate connection of circuits not suitable for IDC termination.

From the vertical frame in the comms room, 2no 25 pair cables should be taken to each cabinet,

both in the primary and secondary comms rooms. One vertical on the frame should be designated

to inbound circuits, and the other designated to the cabinet-bound circuits, modules should be

installed beginning at the base of each vertical, pair 1 is bottom-left. These should be terminated

onto Krone 237A terminal strips on the frame and onto 1u, 24 port voice panels in each of the

cabinets layout as per the drawing above.

Note, only original Krone parts will be accepted.

The pair-layout and colour coding used must conform to CW1308 specifications (see datasheets).

Labelling

Where the telephone cable passes through a barrier, riser opening and immediately prior to entry

into the DP the cable should be clearly labelled with an engraved traffolyte label, white text on red

background and comply with regulations BS EN60079-25 for all labels, text of label will be advised by

ISS.

Each Krone disconnection module must be fitted with a label holder and labelled, labels must be

printed, black text on white background and not handwritten, text for labels to be advised by ISS.

Testing

The Contractor should provide a certificate of compliance to BS6701 Parts 1 and 2 upon completion

of the cabling scheme

The Contractor should undertake a 100% test of all cable pairs. The results must be supplied as a

spread sheet or .csv file. Cable pair tests shall be made to ascertain the following:

Loop resistance < 200/km

Correct Labelling;

CAT6 CablingCategory 6 cabling is now the standard to be used on all installations. Designers and installers

should refer to the ISS cabling specification for details.


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WirelessWireless networking must be provided in any new building or refurbishment. Close coordination is

required with ISS to arrange positions of wireless access points dependent on ceiling, wall and floor

treatments but for early-stage design, one wireless point should be allowed for every 90M2

of open

floor area.

ISS aim to make the wireless network installation as unobtrusive as possible, however the wireless

access points incorporate an antenna and any attempt to cover this will degrade the signal strength.

For each wireless access point location, a single CAT6 dataline should be terminated in a 50mm deep

single pattress box (surface or flush mounted). The pattress should be 150mm from the soffit and

have 150mm clear on all other sides, 75mm clearance should be available to the front with no

metallic materials in front. ISS then mount the wireless access point over the pattress, covering it.

The only equipment in view is then the wireless access point.

Cable entry via conduit coupler to ensure that

fixing is by male bush exiting the patress box

Cable entry to be offset from fixing screw

position to prevent subsequent damage to cable


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Appendix A Supplier Contacts

RittalMichelle Eldridge [email protected]

Phone +44(0)844 800 6002

Fax +44(0)208 8054436

Splice (UK)James Craven [email protected]

Tel: +44 (0)113 285 2536

Fax: +44 (0)113 2852741

Carly Greaves [email protected]

DD: +44 (0)113 285 9820

Brand-RexCraig Urmston [email protected]

M: +44 (0)7771 978376

Huber & SuhnerBarbara Lowe [email protected]

Projects Co-ordinator Tel: +44 (0)1869 364238
mailto:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]


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Home Products Uninterruptible Power Supply (UPS) Product Family

APC Smart-UPSRT 3000VA RM230V

Part Number:SURTD3000RMXLI

Output

Output Power Capacity 2100 Watts / 3000 VA

Max Configurable Power 2100 Watts / 3000 VA

Nominal Output Voltage 230V

Output Voltage Note Configurable for 220 : 230 or 240 nominal output voltage

Efficiency at Full Load 92%

Output Voltage Distortion Less than 3%

Output Frequency (sync tomains)

50/60 Hz +/- 3 Hz user adjustable +/- 0.1

Crest Factor 3 : 1

Waveform Type Sine wave

Output Connections (8) IEC 320 C13

(2) IEC 320 C19

(2) IEC Jumpers

Bypass Internal Bypass (Automatic and Manual)

Input

Nominal Input Voltage 230V

Input Frequency 50/60 Hz +/- 5 Hz (auto sensing)

Input Connections British BS1363AIEC-320 C20

Schuko CEE 7/EU1-16P

Cord Length 2.44 meters

Input voltage range for mainoperations

160 - 280V

Input voltage adjustable rangefor mains operation

100 - 280V

Other Input Voltages 220,240

Batteries & Runtime

Battery Type Maintenance-free sealed Lead-Acid battery with suspended electrolyte :

Page 1 of 3APC Smart-UPS RT 3000VA RM 230V


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Included Battery Modules 2

Typical recharge time 2.50 hour(s)

Replacement Battery RBC44

RBC Quantity 1

Extended Run Options APC Smart-UPS RT 3000VA RM 230V

Runtime Graph

Curve Part Number(s)

A SURTD3000RMXLI

B

SURTD3000RMXLI

+ (1)SURT192RMXLBP

C

SURTD3000RMXLI

+ (2)SURT192RMXLBP

D

SURTD3000RMXLI

+ (3)SURT192RMXLBP

E

SURTD3000RMXLI

+ (4)SURT192RMXLBP

Hover over the line on the graph above to view the runtime at any desiredload

Curve fit to measured runtime data. All measurements taken with new,fully charged batteries, at typical environmental conditions, with no

electrical input and balanced resistive load (PF = 1.0) output.

View Enlarged Graph View Runtime Chart

Communications & Management

Interface Port(s) RJ-45 Serial,SmartSlot

Available SmartSlot InterfaceQuantity

1

Control panel LED status display with load and battery bar-graphs and On Line : OnBattery : Replace Battery : Overload and Bypass Indicators

Audible Alarm Alarm when on battery : distinctive low battery alarm : overload continuoustone alarm

Emergency Power Off (EPO) Yes

Surge Protection and Filtering

Surge energy rating 480 Joules



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Copyright American Power Conversion Corp., all rights reserved

**The time to recharge to 90% of full battery capacity following a discharge to shutdown using a load rated for 1/2the full load rating of the UPS.

Filtering Full time multi-pole noise filtering : 0.3% IEEE surge let-through : zeroclamping response time : meets UL 1449

Physical

Maximum Height 130.00 mm

Maximum Width 432.00 mm

Maximum Depth 660.00 mm

Rack Height 3U

Net Weight 54.55 KG

Shipping Weight 63.64 KG

Shipping Height 347.00 mm

Shipping Width 603.00 mm

Shipping Depth 980.00 mm

Color BlackUnits per Pallet 6.00

Environmental

Operating Environment 0 - 40 C

Operating Relative Humidity 0 - 95%

Operating Elevation 0-3000 meters

Storage Temperature -15 - 45 C

Storage Relative Humidity 0 - 95%

Storage Elevation 0-15000 meters

Audible noise at 1 meter fromsurface of unit

55.00 dBA

Online Thermal Dissipation 609.00 BTU/hr

Conformance

Regulatory Approvals BSMI,C-tick,CE,CSA,EN 50091-1,EN 50091-2,EN 55022 Class A,EN60950,EN 61000-3-2,GOST,JEON,UL 1778,VCCI,VDE

Standard Warranty 2 years repair or replace



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BEP Building Entry Point

Optibox4 for single or small multi dwelling units

OptiBox 4 is a fiber optic distribution and termination enclosure, which is used for splicing, patching and to performwith passive optical components. The straightforward mounting box has its main use in telecommunication (Fiber-to-the-Home/Fiber In The Home) and is specially designed for indoor or outdoor deployment (IP 54). In order toprotect the fibers from bending or environmental influence, conventional loose tube cables as well as micro cables orconduits of blow-in systems can be fastened to the inside of the box. Further, there can be fastened various gas andwater blocking systems inside the box..

Features

Straightforward mounting splicing and patchingbox, consisting of base, fiber tray and coverDetachable fiber management tray (fiber inlay)Up to 4 adapters in SC shape (LC, LX.5, SC,E-2000)Adapters / connectors can be mounted inside oroutside of the enclosureStorage of uncut fibersSplice cassettes in single element technologySpecial storage position for unused fibersTwo different levels sharing up to 12 splices1 cable entry, 4 cable exit of which one is bendingradius protected through the enclosureOutside cable entries and exit are sealed with hin-ged half- shell cable grommetsKey lockable cover is individually lead sealableTelekom (Service)- and user area are dividable andsealableUV radiation resistant housingEnclosure impermeability matches the requirement ofmoderate outdoor applications (IP54)


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Attribute Value

Dimensions (W x L x H) 150 x 250 x 46 mm

Capacity: detachable optical connections

non detachable optical connections

8x LC and LX.5, 4x SC and E-2000

24 x sandwich-, 12 x heat shrink splice protection

Dimension () cable or blow-in conduits 3 12 mm

Material: enclosure (cover / base) PC/ABS

Colour: enclosure (cover / base) RAL 9016, traffic white

Ingress protection degree (EN60529) IP54

Temperature resistance 46 +120C

Flamability rating: enclosure UL 94V-0

UV resistance: enclosure resistant

Free of halogen yes


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Additional cassette for retrofitting Unit Item no.

OTB4-EXTEND-TRAY-SET 1 84083566

Scope of supply:

Additional cassette

Material: PC/ABSColour: grey white, RAL 9002

Add-on lid for retrofitting Unit Item no.

OTB4-ADD-COVER-SET 1 84083567

Scope of supply:

Add-on lid, security screw and warranty seal

All components are enclosed

Material: PC/ABS

Colour: grey white, RAL 9002

Item no. Op

tiBox

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IP54

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84083524 x x

84083525 x x

84083528 x x x

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84083530 x x x

84083533 x x x

84083534 x x x x



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Lock for retrofitting Unit Item no.

OTB4-KEY-LOCK-RETRO-FIT-2233X 1 84078461

Scope of supply:

Lock with 1 key

Material: GD-Zn chrome-plated


Order code

OTB4 OptiBox 4 (standard)

0LO NO lock

1LO with lock

0T NO extension tray

1T with extension tray

0C NO add-on lid

1C with add-on lid

INLAY with fiber inlay

FIT assembled


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Entry ducts

Exit duct

Entry ducts

Exit duct

1310mm

613mm 713mm

Bottom of duct

100mm above

chamber bottom

100mm reinforced concreat lip

Chamber walls to be minimum 100mm thick concrete cast in situ.

Chamber lid to be standard footway 6 TSL part number 1003 or exact equivalent

lid to be concrete filled with no badge.

Chamber frame to be set in position on concrete walls with resin bonded mortar.Duct entry/exit locations are examples.

Plan view

Side view


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CABLING SYSTEMS

SOLUT IONS FOR DATA CENTRES


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What is f-tube? f-tube is the complete solution!

Its a revolutionary complete fibre cabling solution.

A new, proven & simple way of installing fibre networks

CABLING SYSTEMS

is for future

is for fibre management

is for flexibilty

is for fast expansion

is for f-Tube

Cabling Systems - Solutions for Data Centres

How do you meet the ever expanding demands

placed upon your physical network?Simple, f-tube

offers a complete future proof solution. By simply installing

a tube network within your data centre not only can meet

your current demands but you also create an environment

where expansion, upgrades and replacements are effortless.

The installation of a tubing infrastructure will ensure the

network can accommodate any future demands placed

is for future


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Its the Complete Solution,

but how does f-tube work?

CABLING SYSTEMS

Ease of installation

The tube infrastructure is as simple to install as

any conventional cable network. The tube can be

installed on standard cable tray or cable basket,

this means you can adopt this solution to eithergreenfield sites or when adding to an existing

infrastructure.

Point of presence

The presentation at the servers can be adapted

dependant on the density and layout, but by

deploying the f-tube solution you minimise

channel loss, reduce points of failure and maintain

the full flexibility of the solution.


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Central Patching Frame

The heart of the solution is the Central Patching Frame

(CPF). This solution has been designed to accommodate

high fibre counts with a dedicated area for routing

and managing patchcords. This makes the system both

effortless to work on and very serviceable.

The innovating high density design allows you to

replace multiple conventional racks with a single frame.

Modular by Design

The modular design allows you to quickly action

moves, adds and changes ensuring ease of access

to any connection and also helps you adopt a Pay

as You Grow strategy. The scalability of the

system means you can install additional frames

whilst maintaining complete flexibility allowing

you to connect any service to the SAN.

The modular cassette system allows passive optical

devices such as: splitters, taps and filters to be

easily integrated into the system.

The CPF allows you to connect anything to

anything:Server/equipment distribution

Panel design/management

PreTerminated Solutio

or Cabling the SAN switc

The Pre-terminated cables provides the high density

fibre count required whilst the management bay

situated directly below the switch offers complete

accessibility allowing you to load and re-load your

infrastructure with minimum disruption to the

existing network. This method of growth means

its much easier remove the old cabling, thus no

redundant fibres are left in place.


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CABLING SYSTEMS

The solution is designed to maximise accessibility and

manageability, even when a blade or chassis is fully

populated. Consequently, the removal of an entire blade

is as quick and simple as the removal of a single

connector.

Each pre-terminated fibre can be installed or removed

independently to the rest of the network, reducing risk

and network disruption. This will minimise channel loss

and possible points of failure.

The pre-terminated solution offers the quality and

durability of a factory terminated connection whilst thecompact design delivers unprecedented fibre density at

the network equipment location.

f-tube in action!

Ease of accessibility

Modular by design

High density


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The Splice Cassette system offers a completely modular

solution. This makes changing fibre specifications or

adding additional connectivity as simple as sliding in a

cassette. These same cassettes will also accommodate

passive optical devices that can be slotted directly into

the frame.

The Central Patching Frame design allows complete

access to all connections. A standard length patchcord

will connect any circuit to any circuit, making the

installation of addition connectivity effortless.

With complete fibre management the Central Patching

Frame can accommodate thousands of connections

within a single cabinet. The design of the CPF means

you only need to access the front of the cabinet creating

more location options whilst maintaining complete

scalability with both back to back and side by side

configurations available.

Ease of accessibility

Modular by design

High density


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The F-Tube cabling system installed by Splice has to be

some of the best I have ever seen. As far as best practicegoes, we recommend this solution to our customers

whenever they ask about cabling issues.

UK SE Manager- Simon Pamplin

Brocade Communications Systems UK Ltd

Customer Comments

I decided I had to see how easy it was to install the micro ducts

and fibre bundles in our network. I visited an installation test

site and asked if I was able to pull some of the fibres into the

micro duct. I removed my jacket, took a grip of the cord and

started to pull the fibre bundles through the tubing. I was

surprised at just how easy it was to installwe were so confident

with the simplicity of the whole pulled fibre solution that we

decided to implement the splice micro duct

pulledfibresystemthroughout our entire network.

Cable Planner- Telecoms Carrier

UK OFFICE

The Coach House Whitehall Road Drighlington

West Yorkshire UK BD11 1LN

T +44 (0)113 285 2536 F +44 (0)113 285 2741

[email protected]

Splice Services provide the complete package

ranging from Site Surveying, Network Design

and Project Management. Our experienced

engineers will ensure a professional and

efficient solution is delivered through the

installation of our F-Tube system.

On-going support and maintenance is available

to ensure the highest level of service.

Splice Services


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Entry ducts

Exit duct

Entry ducts

Exit duct

1310mm

613mm

Bottom of duct

100mm above

chamber bottom

Chamber walls to be minimum 100mm thick concrete cast in situ.

Chamber lid to be standard footway 6 TSL part number 1003 or exact equivalent

lid to be concrete filled with no badge.

Chamber frame to be set in position on concrete walls with resin bonded mortar.Duct entry/exit locations are examples.

Plan view

Side view


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This product specification document is intended as a guide only. Whilst the information it contains is believed to be correct, Emtelle can take noresponsibility for actions taken based on the information contained in this document. Emtelle reserves the right to make changes to this document withoutnotice. All sales of product are subject to Emtelle's terms and conditions of sale only, which can be found on Emtelle's website.This document is protected by copyright (c) Emtelle UK Limited 2005. The products depicted are protected by intellectual property rights. Any unauthorizedcopying of this document or of our products is prohibited and Emtelle UK Limited will take action to prevent any infringement of its rights and to claim

3.1 The duct shall have dimensions (mm) as per table above, all testing is conducted at +20 degrees C.

3.2 Compression strength and impact strength test s procedures are as specified in BS EN 50086-2-4.

4.0 Product Performance

Unless otherwise specified

4.1 Telecommunication ducting systems comply with BS EN 50086/2/4, 250N, 450N or 750N Classifications.

4.2 The key physical measurements have equal importance across application area.

Application Telecoms Specification Pass criteria

Compression M BS EN 50086-2-4 9 from 12 pass

Gellation(Acetone)

O BS 509 Pt1 1987 No effect other than swelling

Tensile O BS 2782 Pt3 method320A 1976

>44.1N/mm and >80%

Static frictioncoefficient

O EATS 12-24 1989


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This [product specification is intended as a guide only. Whilst the information it contains is believed to be correct, Emtelle can take no responsibility for actions taken based on theinformation contained in this document. Emtelle reserves the right to make changes to this document without notice. All sales of product are subject to Emtelle's terms and conditionsof sale only, which can be found on Emtelle's website.This document is protected by copyright (c) Emtelle UK Limited 2010. The products depicted are protected by intellectual property rights. Any unauthorized copying of this document or

PRIME HDPE DUCT (or sub-duct)

1 GENERAL1.1 This document defines single continuous duct made from high quality HDPE, according to paragraph

2.1. It features a bonded low friction dry liner, to enable easy placement of fibre optic and powercables of suitable OD.

1.2 HDPE duct is supplied in coils or on returnable drums (wood or metal)

1.3 The finished product shall be free from cracks, holes, foreign inclusions or other defects that wouldimpair its performance. It shall be smooth walled inside and out and conform to the requirements ofthis document. A ribbed internal surface is available on request.

1.4 The finished product shall be capped ensuring the ends are watertight to prevent the ingress ofcontamination or foreign bodies likely to cause problems when cabling.

1.5 Duct is available with a standard 8kN pull-rope pre-installed. This may be called rope-in-duct.

2 RAW MATERIALS2.1 The tensile strength of the polyethylene stated by the supplier shall be no less than 23MPa.

2.2 The derived density of the polyethylene shall be not less than 0.95 g/ml when determined inaccordance with Appendix B of BS 3412 Method B5.

2.3 The melt flow rate of the polyethylene compound shall be less than 0.4g/600s when measured inaccordance with ISO 1133 Method 720 Test condition 4.

2.4 The polyethylene shall be uniform in colour and free from foreign matter.

2.5 Both the polyethylene compound and the dry lubricant shall be protected against thermal degradationsuch that adequate stabilisation is imparted during processing of the material.

2.6 The polyethylene compound shall be adequately protected against ultraviolet degradation inaccordance with ISO 877: Method 550B, normal daylight. Performance is based on maximum 6months storage outdoors.

3 DIMENSIONS3.1 The duct shall have dimensions (mm) as per the table below.

3.2 Ovality is the amount the greatest diameter exceeds the diameter at 90to it, (at one position) dividedby the average diameter. It is expressed as a percentage.a) On the extrusion line (before the drumming/coiling operation): The ovality shall not exceed 3%(ducts up to OD 40mm). For ducts over nominal 40mm, the ovality shall not exceed 5%.b) Coming off the drum or coil: The ovality shall not exceed 7% (ducts up to OD 40mm). For ductsover nominal 40mm, the ovality shall not exceed 10%.

3.3 The weight (mass) of the duct shall be nominally as stated in the table.

Generic Specification MHT 582Q


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MEAN OUTSIDE DIAM WALL THICKNESSmax install

tensionSIZEOD/ID

SDR

min NOM maxI.D.nom min NOM max

MASSnomg/m kN kg

16 / 10 5.3 15.8 16 16.2 10 2.8 3.0 3.2 119 1.2 120

16 / 12 8.0 15.8 16 16.2 12 1.8 2.0 2.2 85 0.85 8516 / 13 10.7 15.8 16 16.2 13 1.3 1.5 1.7 68 0.7 7020 / 16 10.0 19.7 20 20.3 16 1.7 2.0 2.3 111 1.1 11025 / 20 10.0 24.7 25 25.3 20 2.2 2.5 2.8 170 1.7 17025 / 21 12.5 24.7 25 25.3 21 1.7 2.0 2.3 140 1.4 14028 / 24 14.0 27.7 28 28.3 24 1.7 2.0 2.3 162 1.6 16031 / 25 10.3 30.7 31 31.3 25 2.7 3.0 3.3 255 2.6 26032 / 26 10.7 31.7 32 32.3 26 2.7 3.0 3.3 255 2.6 26032 / 27 12.8 31.7 32 32.3 27 2.2 2.5 2.8 221 2.2 22032 / 28 16.0 31.7 32 32.3 28 1.7 2.0 2.3 179 1.8 18034 / 28 11.3 33.7 34 34.3 28 2.7 3.0 3.3 272 2.7 27035 / 28 10.0 34.7 35 35.3 28 3.2 3.5 3.8 332 3.3 33035 / 30 14.0 34.7 35 35.3 30 2.2 2.5 2.8 247 2.5 25037 / 31 12.3 36.7 37 37.3 31 2.7 3.0 3.3 304 3 300

37 / 32 14.8 36.7 37 37.3 32 2.2 2.5 2.8 255 2.5 25037 / 33 18.5 36.7 37 37.3 33 1.7 2.0 2.3 209 2 20038 / 32 12.7 37.7 38 38.3 32 2.7 3.0 3.3 323 3.2 32040 / 32 10.0 39.7 40 40.3 32 3.7 4.0 4.3 425 4.3 43040 / 33 11.4 39.7 40 40.3 33 3.2 3.5 3.8 383 3.7 37040 / 34 13.3 39.7 40 40.3 34 2.7 3.0 3.3 332 3.3 33040 / 35 16.0 39.7 40 40.3 35 2.2 2.5 2.8 280 2.7 27044 / 38 14.7 43.7 44 44.3 38 2.7 3.0 3.3 366 3.7 370

50 / 41 10.9 49.5 50 50.5 40.8 4.3 4.6 4.9 612 6.1 61050 / 42 13.5 49.5 50 50.5 42.6 3.4 3.7 4.0 544 5.4 54050 / 43 14.3 49.5 50 50.5 43 3.2 3.5 3.8 486 19 190063 / 50 9.7 62.7 63 63.3 50 6.2 6.5 6.8 1105 11 1100

SDR is the standard dimension ratio (OD /wall). Lower SDRs indicate heavy-duty sizes.

4 PERFORMANCE4.1 TENSILE: The duct shall withstand the stated axial load when applied at 100mm/min to a 500mm

gauge length. The elongation due to this load shall not exceed 5%.NB: The expected tensile yield load causes total failure of the duct. Yield load is not a safe workingload. At this load, the duct has normally elongated by around 10%, and then continues to elongate tofailure.

4.2 a) INSTALLATION of DUCT: We recommend that installation tension does not exceed that specifiedin the previous table, and that correct installation procedures are followed. Pulling duct causestemporary elongation, which reduces when unloaded. After pulling and before cutting or connectingthe duct, allow suitable relaxation time, ideally 24 hours or more.b) INSTALLATION of Cable into DUCT: Use emtelle recommended methods. Do not exceed blow

pressure listed below, or the duct may suffer deformation.

4.3 STIFFNESS of each duct at 5% deflection shall exceed that stated below. (Test to ASTM 2412)

4.4 COMPRESSION: The load expected to give 15% deflection on a 200mm length is given. (to EN50086-2-4)

4.5 IMPACT: All duct shall withstand (ie no cracks) a 15J impact at -5C when tested to EN 50086-2-4.

4.6 COIL SET: When 50m of duct is laid out and allowed to relax, the central part, excluding ends, shall liesubstantially straight.


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4.7 FRICTION: The frictional force (horizontal) on a standard pull-rope shall be no greater than 390Nwhen lifting a 25kg mass (vertical) at a speed of 0.5m/min. The duct sample containing the rope shall

be 5m long, and include a 450loop of diameter 0.75m. .

4.8 BENDING: Minimum recommended bend radius is as stated. If temp is below 5C, MBR is greater, asstated. Do not go tighter than the MBR. Remember that the greaterthe installed bend radius, the lessstress will be induced in the duct, and the easier that cables will blow or pull around the curve.**Barrel diameters for supply may be slightly tighter than this.

4.4expected load at

15% compressionon 200mm length

4.8Min bend radius**for handling and

lifetime configuration

OD / ID4.1

tensiletest load

(N)

4.1expected

tensileyield load

(N)#

4.2max

recommendblow

pressurebar

4.3min

stiffnessASTM2412kPa

Newtons kg over

5C

under

5C16 / 10 1400 2810 15 7000 700 0.16m 0.22m

16 / 12 1000 2020 15 0.16m 0.22m16 / 13 800 1570 15 0.19m 0.27m20 / 16 1300 2600 15 0.22m 0.3m25 / 20 2000 4060 15 3000 1900 190 0.3m 0.4m25 / 21 1650 3300 13 950 95 0.35m 0.5m28 / 24 1900 3750 12 0.45m 0.65m31 / 25 3000 6070 15 2500 1800 180 0.35m 0.5m32 / 26 3000 6280 15 2100 1600 160 0.4m 0.55m32 / 27 2600 5320 13 1500 1200 120 0.45m 0.65m32 / 28 2100 4330 10 900 800 80 0.55m 0.75m34 / 28 3200 6720 14 2000 1600 160 0.45m 0.55m35 / 28 3900 7960 15 2500 2500 250 0.4m 0.55m35 / 30 2900 5870 11 0.55m 0.80m37 / 31 3600 7200 13 0.5m 0.7m

37 / 32 3000 6230 11 1000 1000 100 0.6m 0.85m37 / 33 2400 5000 8 0.7m 1.0m38 / 32 3800 7500 13 0.53m 0.75m40 / 32 5000 10400 15 2800 2800 280 0.45m 0.65m40 / 33 4500 9230 14 1800 1700 170 0.5m 0.7m40 / 34 3900 8000 12 0.56m 0.8m40 / 35 3200 6700 10 0.7m 1.0m44 / 38 4300 8800 11 0.7m 1.0m50 / 41 7200 14790 15 2200 2800 280 0.55m 0.8m50 / 42 6400 13290 13 1200 1600 160 0.75m 1.05m50 / 43 6000 11700 11 0.75m 1.05m63 / 50 13000 26500 15 0.7m 1.0m

NOTE: Emtelle can supply additional sizes. Please enquire.

4.9 MARKING: Unless otherwise requested, the duct shall be marked as below at one metre intervals:Incremental metre-markManufacturers product codeProduction dateSize of ductCustomer name and / or other special designations(Colours and / or stripes are also available on request)


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LSZH or PE Sheath

Gel Filled

Loose Tube

Individual Coloured Fibres

Water Blocking Tape

Rigid Glass Central Strength Member

Brand-Rex Optical Cables - Universal MDU 05 and External MDE 05Duct Grade Multi Loose Tube Cable

B R A N D R E X O P T I C A L C A B L E S U N I V E R S A L M D U 0 5 A N D E X T E R N A L M D E 0 5

Rigid Glass Central Strength Member

Choice of Universal or External Sheath

18 x 12 Fibres Per Tube Offering up to 216 Fibres

2.50mm Gel Filled Loose Tube

PRODUCT DESCRIPTION:

For higher fibre count building and campusbackbone applications the product range

delivers up to 216 fibres in a compact duct grade

construction. The product range consists of

multiple 2.50mm loose tubes containing up to

12 fibres and solid fillers where required, stranded

around a sheathed rigid glass non metallic central

strength member. A layer of water blocking tape

provides interstitial water blocking.

Temp - Operation:

-40c to +70c

Temp - Storage:

-40c to +70c

Temp - Installation:

-10c to +70c

Water Penetration:


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46/48

This data sheet is intended as a guide only. Whilst the information it contains is believed to be correct, Emtelle can take no responsibility for actions taken based on the informationcontained in this document. Emtelle reserves the right to make changes to this document without notice. All sales of product are subject to Emtelle's terms and conditions of saleonly, which can be found on Emtelle's website.This document is protected by copyright (c) Emtelle UK Limited [2005]. The products depicted are protected by intellectual property rights. Any unauthorized copying of thisdocument or of our products is prohibited and Emtelle UK Limited will take action to prevent any infringement of its rights and to claim damages for the loss that it suffers

OD SIZEnominal

mm

IDapprox

mmAngle Radius

mm

Socket TypeSI = single interferenceDI = double interference

89 45 350 SI

89 90 250 SI

96.5 9 5180 SI

96.5 11 700 SI

96.5 11 5180 SI

96.5 18 2685 SI

96.5 22 427 SI

96.5 22 700 SI

96.5 45 350 SI

96.5 90 427 SI

110 11 700 SI

110 11 3500 SI

110 22 700 SI

110 22 1750 SI

110 45 560 SI

110 90 450 SI

125 11 1200 SI

125 22 1200 SI

125 45 1200 SI

125 90 1200 SI

160 11 560 SI

160 22 560 SI

160 45 560 SI

160 90 560 SI


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Home Products Uninterruptible Power Supply (UPS) Product Family

UPS Network

ManagementCard 2 withEnvironmentalMonitoring

Part Number:AP9631

Communications & Management

Protocols HTTP,HTTPS,IPv4,IPv6,NTP,SMTP,SNMP v1,SNMP v3,SSH V1,SSHV2,SSL,TCP/IP,Telnet

Network Interface Connections RJ-45 10/100 Base-T

Authentication Radius

Physical

Net Weight 0.09 KG

Maximum Height 38.00 mm

Maximum Width 121.00 mm

Maximum Depth 114.00 mm

Shipping Weight 0.34 KG

Shipping Height 51.00 mm

Shipping Width 235.00 mm

Shipping Depth 159.00 mm

Color Black

Environmental

Operating Environment 0 - 45 C

Storage Temperature -5 - 45 C

Operating Relative Humidity 0 - 95%

Storage Relative Humidity 0 - 95%

Operating Elevation 0-3000 meters

Storage Elevation 0-15000 meters

Conformance

Regulatory Approvals AS/NZS 3548 (C-Tick) Class A,EN 55022 Class A,EN 55024,FCC Part 15Class A,GOST,ICES-003,VCCI Class A

Standard Warranty 2 years repair or replace

Environmental Compliance RoHS

Page 1 of 1UPS Network Management Card 2 with Environmental Monitoring


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6U 19 Panel

Splice UK offer equipment panels based upon a philosophy of quality, valueand technical expertise. Designed in house, our panels offer the additionalbenefit of bespoke design to individual requirements where necessary.

Specification table:

Material Mild Steel

Finish Powder coated

ColourLight Grey,RAL 00 A 01

Capacity Up to 144 fibres

Height 262mm

Length external 482.6mm

Length internal 440mm

Depth 266mm

Technical Data Sheet

Features:

Splice cassette fibremanagement up to 12cassettes or 144 fibres

Compatible to any 19rack/ETSI (with additionalbrackets)

Modular cassette design

Can integrate WDM,DWDM and splittersystems

Vented for minimumairflow disruption

Integral cable breakoutunit

Laser safe design

Lockable front cover

Applications:

Telecommunications

LAN

CATV

lu comms spec v2f with appdx

Documents