ICT NETWORK STANDARDS - Deakin University

ICT NETWORK STANDARDS - COMMUNICATIONS

ROOMS

AUDIO VISUAL & NETWORK SERVICES

ICT NETWORK STANDARDS VERSION 2019-111

Deakin University CRICOS Provider Code: 00113B

Audio Visual & Network Services ICT Network Standards Version 2019-08

Page 1

deakin.edu.au Deakin University CRICOS Provider Code: 00113B

Contents

Contents ICT NETWORK STANDARDS VERSION 2019-11....................................................................................... 1

1 IPG Infrastructure Property Group ....................................................................................................................... 3 2 Contacts ............................................................................................................................................................... 3 3 Scope of Document .............................................................................................................................................. 4

3.1 Purpose .................................................................................................................................................. 4 3.2 Document Access ................................................................................................................................... 4 3.3 Associated Documents ........................................................................................................................... 4 3.4 Document History .................................................................................................................................. 5

4 General information ............................................................................................................................................ 5 4.1 Communication Room Types ................................................................................................................. 5 4.2 Communication Risers ............................................................................................................................ 6 4.3 General requirements for Communication Rooms ................................................................................ 6 4.4 Physical Access ......................................................................................................................... 6

5 Communication Room Construction ........................................................................................ 7

5.1 Doors ........................................................................................................................................ 7

5.2 Ceilings...................................................................................................................................... 7

5.3 Flooring ..................................................................................................................................... 7

5.4 Signage ..................................................................................................................................... 7

5.5 Room Penetrations..................................................................................................................... 7

6 Communication Room Services ............................................................................................................................ 8 a. Air Conditioning ...................................................................................................................................... 8 6.1.1 Communication Room CM1 Air Conditioning Requirements .................................................. 8

6.1.2 Communication Room CM2 and CM3 Air Conditioning Requirements ................................... 9

6.2 Fire Services .......................................................................................................................................... 10 6.3 Lighting ................................................................................................................................................. 10 6.4 Power Provision.................................................................................................................................... 10 6.4.1 General use power outlet (GPO) ............................................................................................10

6.5 Security ................................................................................................................................................. 10 7 Standard rack types ........................................................................................................................................... 11 8 Rack Installation................................................................................................................................................. 11

8.1 Rack Assembly ...................................................................................................................................... 11 8.2 Rack Cable Management ...................................................................................................................... 11 8.3 Rack Product Mounting ........................................................................................................................ 11 8.4 Rack Horizontal Field Cabling ............................................................................................................... 12 8.7.1 Copper Horizontal Cabling Documentation ...........................................................................12

9 Communication Room Types Description ........................................................................................................... 13 9.1 CM-1 General Communications Room ................................................................................................. 13 9.1.1 CM-1 Typical Rack Design ......................................................................................................13

9.4.1 CM-2 Typical Rack Design ......................................................................................................15

9.4.2 CM-2 Typical room size and layout: .......................................................................................15


Page 2


9.4.3 CM-2 Typical Rack layout .......................................................................................................16

9.5.1 CM-3 Typical room size and layout ........................................................................................17



10 Capacity planning ............................................................................................................................................... 19 11 Monitoring 19 12 Expansion 19 13 Appendix A 20 14 Appendix B 21 Deakin Approved Hardware ...................................................................................................................................... 21

Additional hardware ..............................................................................................................................29


Page 3


1 IPG Infrastructure Property Group

Word or Short-form Definition

AG1 IPG Lock numbering system

AVN Audio Visual and Networks Group

BAS Building Automation System

CM 1 General Communications Room

CM 2 Building Gateway Communications Room

CM 3 Distribution Communications Room

CM 4 Core Communications Room

Contractor Any consultant, installer, integrator, contractor or sub-contractor hired to provide products or services to Deakin

DES Deakin eSolutions

External supplier A company such as a third party audio-visual or integration vendor, or network cabling provider, contracted by Deakin University to provide specified products and/or services.

IPG Infrastructure Property Division

GPO General Power Outlet

In writing Traceable/auditable correspondence. E.g. written document, email.

ICT Information and Communication Technology

LAN Local Area Network

Network Engineering Deakin eSolutions Network Engineering Team Leader or their delegate

PDU Power Distribution Unit

RMS Room Management System

UPS Uninterruptable Power Supply

WAN Wide Area Network

2 Contacts A Network Engineering Representative will be assigned for all projects or tasks that impact the Deakin ICT network. This person shall be the first point of contact for all queries. If this person is not available to answer queries, the Deakin eSolutions Network Engineering Team Leader is to be contacted for alternative representation.

Refer to https://blogs.deakin.edu.au/avn-docs/standards-documents/network-standards/ for Network Engineering Team Leader contact information

https://blogs.deakin.edu.au/avn-docs/standards-documents/network-standards/


Page 4


3 Scope of Document

3.1 Purpose This document is one in the ICT Networking Standards series. It describes the standards for communications rooms in use in Deakin for housing of ICT equipment.

This document must be read in conjunction with “Network Standards – Overview” which contains key information regarding the ICT Networking Standards series and accountability.

Where the work deviates from these standards, approval in writing from the Deakin eSolutions Network Engineering Team Leader or their delegate, hereafter referred to as Network Engineering, is required before works commence.

(Note: Resource ICT 6.2.1 (Communications room checklist) has been moved on line and in to I Auditor and forms part of handover processes).

3.2 Document Access

All Deakin University eSolutions staff and contracted personnel are provided access to this document. The most recent version is available at:

https://blogs.deakin.edu.au/avn-docs/

3.3 Associated Documents Many aspects of the system design requirements are specified in other companion documents within the Deakin ICT Technical Standards. These documents must be read together to constitute the complete Communication Network Standard. The ICT Network Standards series of documents includes:

Document Purpose

Network Standards – Overview Overview document for the ICT Network Standards series - contains key information regarding the ICT Networking Standards series and accountability.

Network Standards – Communications Rooms This document.

Describes the standards for communications rooms in use in Deakin for housing of ICT equipment.

Network Standards – Communications Cabling Describes copper and fibre cabling standards in use at Deakin.

Network Standards – Power Provisioning Describes UPS and dual power standards for the provision of power to communications equipment.

Network Standards – Wireless LAN Describes physical wireless standards in use at Deakin, including site survey and mounting of access points.


Page 5


3.4 Document History

Version Primary Author(s) Description of Version Date Completed

1.1 David Rhodes Initial document release 03/10/2017

2018-2 Carolyn Hulsbergen Document restructured 16/2/2018

2018-3 Pat Foley Document Update 21/11/2018

2019-8 Spiro Blias Document Update - Added Physical Access section -Added paragraph 2 under section 4 - Updated Monitoring section 11 -Added Approved Hardware Appendix B

8/10/2019

2019-10 Spiro Blias Document Update -Updated Hardware Appendix B

31/10/2019

4 General information Deakin University utilises communications, including audio and visual, Computing and Interactive Learning environments to provide some of the most up to date teaching and research facilities.

The communications Room is used to terminate the campus cabling, building backbone cabling, horizontal cabling, as well as house network equipment in order to allow data and voice services to be provided for the work area in a structured cabling system.

To facilitate these services Deakin University has extensive Wide Area and Local Area Networks. These Networks are comprised of specialised computing and audio visual devices strategically positioned about the Deakin University Campuses in “Communications Rooms”.

These “Communications Rooms” are required to be Secure, Controlled and Managed environments to accommodate specialised equipment and to provide a safe workable environment that will need to be dimensioned according to requirement.

Exclusions

This standard does not include requirements for Data Centres as they are purpose-built facilities with criteria specific to the situation in which they are to be built.

4.1 Communication Room Types

Each Deakin University Campus will require four (4) room types:

Room Code Room Type

CM-1 General Communications room

CM-2 Building Gateway Communications room

CM-3 Distribution Communications room

CM-4 Core Communications room

General Communications Rooms shall typically be utilised for floor level distribution.

The Building Communications Room shall be responsible for supporting Campus switching and Routing equipment and distributes network connectivity throughout building via floor level general Communications Rooms.


Page 6


4.2 Communication Risers

Provide Communications risers in accordance with the following;

• Two separate diverse path dedicated secure risers each with three (3) cable trays per building • Trays to have 40% spare capacity • Communications risers shall be vertically aligned, no offsets shall be permitted.

4.3 General requirements for Communication Rooms

Provide Communications rooms in accordance with the following;

• Multistorey buildings shall be provided with a Building Gateway Communications Room. For smaller buildings requirements shall be confirmed by eSolutions.

• Each floor in a multistorey building will be allocated at least one General Communications Room. Ideally locate the Communications Room in the centre of the floor plate.

• Communication Rooms shall be vertically aligned, no offsets shall be permitted. • Maximum cable runs shall not exceed 80 metres to the further most point. Provide additional

Communications rooms where required to maintain cable runs <80 metres. • Communications Rooms contain critical equipment which requires clean, dry, environmentally

controlled and secure rooms. Shared accommodation in plant-rooms, lift-motor rooms, air handling rooms, boiler rooms, and cleaners’ closets or similar shall not be considered.

• All Communications Rooms shall not contain or pass through other building services. E.g. electrical (including switchboards), water, sewer, etc. to exclude the possibility of accidental damage and to prevent the need for trade access.

• Communications Rooms shall not contain General Service Electrical Switchboards, Electrical sub boards directly relating to AVN provision will be permitted.

• Communications Rooms should be positioned in building zones that can be accessed by eSolutions personnel with standard access permissions, that is not within restricted zones or other rooms that require Security access.

• No underfloor data cabling is permitted from the Field Distribution Frame if fitted, to equipment within the Communications Room.

• A Communications Room shall only service the building that the Communications Room is located within. Under no circumstances will Field Distribution cabling be allowed to extend to adjacent buildings; there will be no exemption to this requirement.

• Field cabling shall only serve the floor level of the associated Communications Room. Field cabling shall not be reticulated across multiple floor levels.

4.4 Physical Access

• Physical access to the Communications room must be limited to only those individuals who have legitimate responsibilities justifying such access.

• When warranted by business needs, a log book for Campus machine rooms may be kept, recording the time of entry, time of exit, and purpose of physical access by visitors and/or authorized personnel.

Any deviation to the above must be authorised by Deakin University eSolutions AVN Unit leader or authorised representative.


Page 7


5 Communication Room Construction 5.1 Doors

•All Communications Rooms are to be provided with a door that has a minimum opening of one metre and opens outwards and can be fully open (180˚).

Example of outward opening doors with 180o fully opened

• All Communications Rooms doors are to have as a minimum 2 metres clearance on both sides and 1.5 metres clearance in front of the door opening to the room to ensure adequate clearance for the manoeuvring of communications racks.

5.2 Ceilings •Communication Rooms shall not contain any tile, suspended or plaster type ceiling. Area above racks are to be kept free of overhead covering where possible to allow free access for cable tray and cable distribution. This instruction must not contravene Building code regulations.

5.3 Flooring •All Communications Rooms shall have a flat level floor; uneven or sloping surfaces shall not be accepted; this is essential for a safe working environment. •All Communications Rooms shall be provided with anti-static treated vinyl floor covering (or similar product).Carpet is not to be used as this can cause static build up which can damage communications equipment. •Uncovered, polished or sealed Concrete floors are also not acceptable.

5.4 Signage •All Communication Rooms must be labelled with standard Deakin University Room numbering and labelling. • Communications Room is to be identified as: • Communication Room And • Access Restricted

5.5 Room Penetrations

All wall, floor and ceiling penetrations are to be installed with the following: • Sufficient space remaining at completion to allow 25% capacity increase • Sealed for fire prevention • Sealed to inhibit water leakage


Page 8


6 Communication Room Services

a. Air Conditioning

6.1.1 Communication Room CM1 Air Conditioning Requirements

Air conditioning criteria for CM1 Communication Rooms as follows;

Parameter Criteria

A/C Type Wall mounted Inverter DX split air conditioning units

Redundancy N

Refrigerant classification

A1

Operation Times 24/7

Cooling Capacity Minimum A/C cooling capacity shall be >5kW Sensible.

Communications room A/C capacity to be verified during design based on proposed equipment being installed. Provide additional cooling capacity above the minimum nominated where required.

Future Spare Cooling Capacity

25%

Space temperatures Set point

22 ±2 °C

Space Humidity 20 to 80% RH (no active control)

Ambient Temperature >40°C

Remote monitoring BMS interface (low level): Space temperature, temperature setpoint adjustment (via BMS), Fault and Status.

Temperature sensor: BMS wall mounted

Leak Detection: Floor sensor below Air Conditioning and sensing cable for any associated pipework.

Alarm notification Equipment fault and temperature alarming via BMS.

AV and network services to receive email notification of critical alarms.

Low Level Alarms: Space temperature <18 and >26°C

Critical Alarms: Equipment fault and space temperature <15 and >28°C

Restart The air conditioning unit shall auto restart following power outage

Insulation: All pipework (including condensate drains) to be insulated. Refrigeration pipework insulation shall be in accordance with BCA Part J

Tundishes Tundishes to be installed external to Communications room or above finished floor level

Miscellaneous No electrical equipment is to be located below or near condensate pipework


Page 9


6.1.2 Communication Room CM2 and CM3 Air Conditioning Requirements

Parameter Criteria

A/C Type Floor Mounted CRAC DX air conditioning unit’s c/w variable speed EC fans and variable compressor capacity control.

Redundancy N+1

Refrigerant classification A1

Operation Times 24/7

Cooling Capacity Minimum A/C cooling capacity shall be >10kW.

Communications room A/C capacity to be verified during design based on proposed equipment being installed. Provide additional cooling capacity above the minimum nominated where required.

Future Spare Cooling Capacity 25%

Space temperatures set point 22 ±2 °C

Space Humidity 20 to 80% RH (no active control)

Ambient Temperature >45°C (and >22°C wet bulb for water cooled units utilising adiabatic heat rejection)

Remote monitoring BMS interface (low level): Space temperature, temperature set point adjustment (via BMS), dirty filter, Fault and Status.

BMS interface (high level): include for 10 points (TBC)

Temperature sensors: BMS wall mounted (hard wired)

Leak Detection: Floor sensor below Air Conditioning and sensing cable for any associated pipework.

Alarm notification Equipment fault and temperature alarming via BMS.

AV and network services to receive email notification of critical alarms.

Low Level Alarms: Space temperature <18 and >26°C

Critical Alarms: Equipment fault and space temperature <15 and >28°C

Restart The air conditioning system shall auto restart following power and/or condenser water (for water cooled units only) outage

Insulation: All pipework (including condensate drains) to be insulated. Refrigeration pipework insulation shall be in accordance with BCA Part J

Tundishes Tundishes to be installed external to Communications room or above finished floor level

Water Cooled CRAC Units Safety tray below all pipework conveying water within Communications room complete with leak detection sensor for each tray.

Backup Ventilation (CM3 Only) Provide backup ventilation system to operate in the event of A/C system failure. System to consist of local fan with relief air opening adjacent within ceiling space. Air flow rate to be based on delta T of 10˚C. Provide acoustic treatment for ventilation system.


Page 10


6.2 Fire Services

• Communications Room to have a minimum 2hr fire rating.

• All Communications Rooms shall be fitted with fire and smoke detectors .Sprinkler systems must NOT be installed. Any existing sprinklers shall be removed during refurbishment of existing spaces and re fitted with fire and smoke detectors.

• Communications Rooms shall be equipped with a fire extinguisher(s) suitable for use on live, electrical equipment pending Fire regulations and requirements.

6.3 Lighting

• All Communications Rooms are to be provided with LED light fittings to provide 500lux at 1m AFFL in front and back of terminations, patch panels, frames and equipment in accordance with AS3084.

• Auto lighting control to enable remote operation of room lighting to facilitate remote monitoring via CCTV.

6.4 Power Provision

• Power for Communications Rooms is to be in reference to: ICT Standard: Network Standard – Power Provisioning.

6.4.1 General use power outlet (GPO)

• The number of standard GPO’s will need to be determined on a site by site basis. As a minimum a dedicated single power circuit with a double 10 amp GPO will be installed: location to be confirmed by Network Engineering.

• Electrical power for the Communications Rack/s is addressed in ICT Standard: Network Standard – Power Provisioning.

6.5 Security

Provide Access Control for all Communication room doors as per Deakin University Campus Services room access specification.

Provide IP CCTV cameras within all Communications rooms to enable remote monitoring of rooms. Clear view of Entry door and front & back of racks to be captured by Security system cameras.

.


Page 11


7 Standard rack types

8 Rack Installation

8.1 Rack Assembly

All racks are to be assembled using the components supplied by the manufacturer with RU1 at

the top of the rack.

8.2 Rack Cable Management All racks installed shall have vertical cable management on both sides at the front of each rack.

Vertical cable management must be suppled when adding / joining racks.

8.3 Rack Product Mounting

The preferred rack is to be a cage nut type using any standard cage nut and screw combination.

When more than 1 rack exists they must be connected by Top Trough with waterfall that creates pathway above the racks.

Vertical cable management must be suppled when joining racks.

There can be an external UPS used for this rack Which is addressed in Network Standards – Power provisioning . https://blogs.deakin.edu.au/avn- docs/

4 post Communications rack. This rack will be used for All Communications room.


Page 12


8.4 Rack Horizontal Field Cabling

All Rack horizontal field cabling shall enter the Rack via the top of rack from suspended tray – cabling is not permitted to enter the Communications room or Rack from underneath.

8.5 Rack electrical cabling and supply

All Rack electrical cabling and supply shall enter the Rack via the top at the rear of rack from suspended /pendant outlets – there will be no electrical cabling entering from underneath. See Network Standards – Power provisioning. https://blogs.deakin.edu.au/avn-docs/

8.6 Rack Fibre Optic Cable Installations

All Fibre termination trays are to be mounted in the Communications rack and begin at RU1 (top).

All fibre cable and hardware installations must comply with Network Standards- Communications cabling

https://blogs.deakin.edu.au/avn-docs/

8.7 Rack Copper Inter-Building Trunk Cable Installations

All inter-building “Voice Grade Copper trunk cables “are to mounted and terminated in the Communications rack beginning at RU4 unless otherwise approved by Deakin University eSolutions AVN Unit leader or authorised representative.

8.7.1 Copper Horizontal Cabling Documentation

The documentation for the copper horizontal cabling will contain and identify, but is not limited to, the following:

• Cable installation route details • Cable numbering schedule • ‘As built’ floor plans with all system outlets indicated • Building names • Applicable room numbers (for distribution outlet identification)

• Patch facility layout and configuration details (i.e. Record Books). Patching record books are to identify all connections and are to be made current. These are to be left on-site in a suitable location within the wiring closet. ADC KRONE record books are to be used. Patching records will be marked in grey lead pencil, so that records may be erased or modified if this becomes necessary for any future ads, moves or changes.

• Each record book cover should be clearly marked in red, with the phrase:

DO NOT REMOVE FROM WIRING CLOSET LOCATION – IF FOUND ELSEWHERE, PLEASE CALL DEAKIN UNIVERSITY eSolutions 1800 463 888

8.8 Minimum Dimensions

• Each particular Communications room type will have a minimum standard for adequate floor/wall area for essential access to equipment. Refer to section titled “Communication Room Types Description” below.

• In addition, the following minimum clearance is required to be maintained where a rack is installed: o 900 mm in front of Field Distribution Frames if installed


Page 13


o 900 mm front and rear of equipment rack/s o 900 mm walk ways from door to Field Distribution Frames o 900 mm walk ways to access the rear of rack/s o For design purposes, the standard rack footprint shall be 1200 mm deep by 900 mm wide, this

includes 150mm on either side of rack for Vertical cable management. • The standard rack footprint shall be used in all cases for Deakin equipment 4 post racks, Audio

Visual racks or Security racks. For racks that are to be supplied for the use of a non-Deakin tenant the minimum rack footprint shall be specified as the same 1200 mm deep by 900 mm wide. A non-Deakin tenant may indicate that they require a rack with larger footprint and this will need approval from Deakin University eSolutions AVN Unit leader or authorised representative.

9 Communication Room Types Description

9.1 CM-1 General Communications Room

The CM-1 General Communications room CM-1 will typically be utilised for floor level Data Cable distribution and will be supported by a UPS (or similar) to achieve the required minimum power uptime.- see Network Standards-Power Provisioning Standards https://blogs.deakin.edu.au/avn-docs/

Redundancy provision calls for dual path LAN connection back to the Gateway switch.

The General Communications room will be responsible for supporting the following:

1. LAN Distribution equipment and Data Infrastructure Cabling

2. AVN Audio visual equipment

3. Campus Services Security equipment

4. RMS monitoring equipment

5. General Communications Equipment -Other

Minimum required dimension for General Communications room is 3 Metres x 3 Metres any deviation to this must be authorised by Deakin University eSolutions AVN Unit leader or authorised representative.

9.1.1 CM-1 Typical Rack Design

Rack design/layout is typically:

Rack 1 will be CM1 Rack cable/ switch design

Rack 2 will be AV/ 3rd party allocation


Page 14


9.2 CM-1 General Communications Room Layout

9.3 CM-1 General Communications Room Rack layout

CM 1

www. apc c. c om

Smart-UPS

5 0 0

www. apcc . cm

http://www.apcc.com/

http://www.apcc.com/


Page 15


9.4 CM-2 Building Gateway Communications room The CM-2 Building Communications Room shall be responsible for supporting Campus switching and Routing equipment and distributes network connectivity throughout building via floor level CM-1 General Communications Rooms.

LAN switching equipment and will be supported by a UPS (or similar) to achieve a minimum the required power uptime- see Network Standards-Power Provisioning Standards https://blogs.deakin.edu.au/avn- docs/

Redundancy provision calls for dual path LAN connection back to the Distribution switch. This redundant path will be both Logical and Geographical.

The General Communications room can also be responsible for supporting the following:

1. Building Gateway equipment



4. Standalone UPS

5. General Communications equipment -Other

Minimum required dimension for Core Communications room is 3.65 Metres x 3.4 Metres any deviation to this must be authorised by Deakin University eSolutions AVN Unit leader or authorised representative.


Rack design is typically:

Rack 1 will be fibre distributor



9.4.2 CM-2 Typical room size and layout:


Page 16


9.4.3 CM-2 Typical Rack layout CM 2


Page 17


9.5 CM-3 Distribution Communications room

The CM-3 Distribution Communications room will be responsible for supporting Campus Switching and Routing equipment and will be supported by a UPS (or similar) to achieve a minimum of 2 hours’ power uptime. Redundancy provision calls for at least 1 Core Communications room on each campus is to be additionally supported by a Backup /Electrical generator-see see Network Standards-Power Provisioning Standards https://blogs.deakin.edu.au/avn-docs/

The Core Communications room can also be responsible for supporting the following:

1. Distribution equipment

2. Building Gateway equipment

3. General Communications equipment



6. Standalone UPS

Minimum required dimension for Core Communications room is 3.65 Metres x 4.15 Metres.

9.5.1 CM-3 Typical room size and layout


Page 18






Rack 3 will be Distribution switch allocation


9.6 CM-4 Core Communications room The CM-4 Core Communications room will be responsible for supporting Campus Switching and Routing equipment and will be supported by a UPS (or similar) to achieve the required power uptime. Redundancy provision calls for at least 1 Core Communications room on each campus is to be additionally supported by a Backup /Electrical generator-see see Network Standards-Power Provisioning Standards https://blogs.deakin.edu.au/avn-docs/

The Core Communications room can also be responsible for supporting the following:

1. Distribution equipment 2. Building Gateway equipment 3. AVN Audio visual equipment 4. Campus Services Security equipment 5. Standalone UPS 6. General Communications equipment

Minimum required dimension for Core Communications room to be determined during design and subject to approval by eSolutions.





Rack 3 will be Distribution/ core switch allocation



Page 19


10 Capacity planning • All ports to be patched and active at install. • All installations to have at least 25% space capacity for cable terminations. • All installations to have at least 25% space capacity for port assignments at completion of build.

11 Monitoring Communications rooms are to be monitored as follows:

• Security – swipe access is to be standard on all installations. • ALL UPS devices are to be fitted with temperature sensor as standard • Room Environmental and air conditioning equipment monitoring to be via BMS. • All Network and UPS devices to be connected to the Deakin Data Network and monitored via

eSolutions SOC – Service Operations Centre • The CSS PDU’s are to be networked and patched to switch one (ports 46 and 47) • UPS are to be patched on switch one (port 48)

12 Expansion Power requirements are not to be exceeded by the addition of Communications equipment-see Network Standards-Power Provisioning Standards https://blogs.deakin.edu.au/avn-docs/

Completion Audit

An audit is to be carried out at the completion of build for any new Communications, any room that is upgraded or any room that has had project work impact. Audits will be conducted using I Auditor by the contractor to demonstrate compliance with the standards.

13 Appendix A

Part Numbers

Application Manufacturer /supplier

Model Part number

Communication Room CM1 Air Conditioning Requirements

Daikin and Mitsubishi

electric

TBA

TBA

Communication Room CM2 and CM3 /4 Air Conditioning Requirements CRAC

Stulz or Vertive

TBA

TBA

4 post Communications rack

Panduit 4 post Communications rack-black only

Part RU Height Width Depth Number in. (mm) in. (mm) in. (mm)

R4P36CN 45 84.0 23.3 36.0

(2134) (591) (914)

Rack side Cable Management

Panduit Panduit finger cable manager

Part RU Height Width Depth Number in. (mm) in. (mm) in. (mm)

WMPVF45E 45 83.0 (2108) 4.9 (125) 6.5 (165)

14 Appendix B

Deakin Approved Hardware

The hardware below can be ordered from Dimension Data quoting the bundle names.

Deakin four switch bundle

Product Model Description Qty.

C9300-48UXM-A Cisco Catalyst 9300 48-port(12 mGig&36 2.5Gbps) Network Advantage 4

C9300-NW-A-48 C9300 Network Advantage, 48-port license 4

S9300UK9-166 CAT9300 Universal image 4

PWR-C1-1100WAC 1100W AC Config 1 Power Supply 4

PWR-C1-1100WAC/2 1100W AC Config 1 Secondary Power Supply 4

C9300-NM-8X Catalyst 9300 8 x 10GE Network Module 2

CAB-C15-CBN Cabinet Jumper Power Cord, 250 VAC 13A, C14-C15 Connectors 8

STACK-T1-50CM 50CM Type 1 Stacking Cable 3

STACK-T1-1M 1M Type 1 Stacking Cable 1

CAB-SPWR-30CM Catalyst Stack Power Cable 30 CM 3


C9300-DNA-A-48-3Y C9300 DNA Advantage, 48-Port 3 Year Term Licenses 4

SFP-10G-LR-S Cisco S-Class 10GBASE SFP+ Modules 4

Deakin three switch bundle










STACK-T1-1M 1M Type 1 Stacking Cable 1





Deakin two switch bundle













Deakin single switch bundle











Deakin single switch add on bundle (add to existing stack)









Deakin six switch power bundle


SRT10KRMXLI APC Smart-UPS SRT 10000VA 230V. APC Smart-UPS SRT 10000VA 230V 1

AP9631 APC UPS Network Management Card with Environmental Monitoring 1

SRT192BP APC Battery pack 1

EUR-CBB03-01-G Eureka Distribution Sub Board 1

SBPSU10K20HC1M1-WP APC UPS Bypass Panel 1

Deakin four switch power bundle


SRT6KXLI APC Smart-UPS SRT 6000VA 230V. APC Smart-UPS SRT 6000VA 230V 1

AP9631 APC UPS Network Management Card with Environmental Monitoring 1

SRT192BP APC Battery pack 1


SBPSU10K20HC1M1-WP APC UPS Bypass Panel 1

Deakin two switch power bundle


SRT3000XLI APC Smart-UPS SRT 3000VA 230V. 1

AP9631 UPS Network Management Card 2 with Environmental Monitoring 1

Deakin single switch power bundle


SRT3000XLI APC Smart-UPS SRT 3000VA 230V. 1

AP9631 UPS Network Management Card 2 with Environmental Monitoring 1

Deakin ceiling mount WAP bundle


AIR-CAP2802I-Z-K9 Wireless Access Point 1

UTP28SP0.5M Panduit CAT6 patch lead – White – 0.5M 1

LIC-CT5520-1A Cisco 5520 Wireless Controller 1 access point adder license 1


AIR-CAP2802E-Z-K9 Wireless Access Point 1

UTP28SP0.5M Panduit CAT6 patch lead – White – 0.5M


Deakin quad patch bundle small bundle



M6060060MP1D43602 Terrawave 2.4/5GHz 6dbi Quad Patch - 1





AIR-ANT2513P4M-N= Antennas 1

AIR-CAB005LL-R-N CISCO 5 ft Low Loss RF cable w/RP-TNC and N-type connectors 4



Deakin outdoor WAP bundle


IW3702-2E-Z-K9 Wireless Access Point 1

AIR-ANT2547V-N= Antennas 4

CAB-ETHRJ45-M12-10 M12 to RJ-45 Ethernet cable, 10 ft 1


Additional hardware Deakin electrical distribution board. Available from electrical wholesalers



Deakin Power Distribution Units. Available from Computer Support Systems (CSS)


ZIP-5M08-TAS1.5RL 32 Amp Intelligent power distribution unit 1

ZIP-5A08-TAS1.5RL 16 Amp Intelligent power distribution unit 1

Teachers Desk Wall Mounted Patch Panel Product Model Description Qty. Attachments Conditions of Use

760237040 |CPP-UDDM-SL-1U-24 RJ45 patch Panel UTP, 1U, 24 port 1

Teachers Desk Wall Mounted Patch Pane

This standard applies only to any new buildings built Requiring a Teachers Desk Wall mount.

AGILE 294 REV C AGILE 294 REV C - GPO & Patch Panel Set-Out 1

AGILE 294 REV C - GPO & Patch Panel S

We are only saying, for the application ‘teachers desk Wall mount’ it may be permissible, not how the end Design will look.