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CIS-Standard – Security Services of 52 Revision No. 001 Issue date: 16 August 2013

Table of Contents 1 Purpose ............................................................................................................................................ 4

2 Scope ............................................................................................................................................... 4

3 Glossary of Terms .......................................................................................................................... 4

4 Authorities & Responsibilities ....................................................................................................... 7

5 Design Details ................................................................................................................................. 7

5.1 Aim ........................................................................................................................................................... 7 5.2 General Information on Basic Design ....................................................................................................... 7 5.3 Security Lighting ....................................................................................................................................... 8 5.4 General Electronic Security Information ................................................................................................... 8 5.5 General Mechanical Security Information ................................................................................................. 8 5.6 Closed Circuit Television (CCTV) ............................................................................................................. 9 5.7 Installation and Commissioning ................................................................................................................ 9 5.8 ACID (Access Control & Intruder Detection) Zones & Specification for Design ........................................ 9

5.8.1 Area type 1 - Open Space around Buildings (Public Space) ............................................................ 9 5.8.2 Area type 2 – Main Pedestrian Corridors and Roads ....................................................................... 9 5.8.3 Area Type 3 - Main Entrance Doors ............................................................................................... 10 5.8.4 Area type 4 - Entry Foyers and Open Space Within Buildings (Public Space) ............................... 10 5.8.5 Area type 5 - External Perimeters or Internal Doors into Security Zones (Positive Control Points) 10 5.8.6 Area type 6 - Car Parks (Open Space) ........................................................................................... 10 5.8.7 Area type 7 - Bike Store Areas (Open Areas or Personal / Private Space) .................................... 11 5.8.8 Area type 8 - Lecture Theatres, General Teaching Areas and Tutorial Rooms (Public Space) ...... 11 5.8.9 Area type 9 - Plant Rooms and CIS Service Areas (Restricted Area) ............................................ 11 5.8.10 Area type 10 - 24 / 7 Access Labs and Teaching and Learning Space (‘At Risk’ Area) ................. 11 5.8.11 Area Type 11 - Libraries and high traffic public spaces .................................................................. 12 5.8.12 Area type 12 - Café Leased Areas ................................................................................................. 12 5.8.13 Area type 13 - General Staff Offices (Private Space) ..................................................................... 13 5.8.14 Area type 14 - Restricted Staff Offices (Private Space) .................................................................. 13 5.8.15 Area type 15 - Fire Stairwells (Internal Perimeters) ........................................................................ 13 5.8.16 Area type 16 - Lifts (Internal Perimeters) ........................................................................................ 13 5.8.17 Area type 17 - All Lab Types and Research Areas (Restricted Space) .......................................... 13 5.8.18 Area type 18 - Hazardous Materials Storage (Restricted Space) ................................................... 14 5.8.19 Area type 19 - Critical Facility Alarm Monitoring (‘At Risk’ Facility)................................................. 14 5.8.20 Area type 20 - Museums, Art works, Anatomy stores and Special Facilities .................................. 14 5.8.21 Area type 21 – Drug cabinet and storage areas ............................................................................. 15

6 General Hardware & Installation Requirements ........................................................................ 16

6.1 ICT Standards ........................................................................................................................................ 16 6.2 Installation Details & Configuration ......................................................................................................... 16

6.2.1 Location of Equipment .................................................................................................................... 16 6.2.2 Wiring & Cabling ............................................................................................................................. 16 6.2.3 Conduits ......................................................................................................................................... 16 6.2.4 Cable Duct ...................................................................................................................................... 17 6.2.5 Locksmith Installations by Security Installer ................................................................................... 17

6.3 ACID Systems: Site Specific Integration, Hardware Installation & Configuration ................................... 17 6.3.1 Standard ACID Readers ................................................................................................................. 17 6.3.2 Electro Magnetic Hold Backs .......................................................................................................... 17 6.3.3 Fire Trip .......................................................................................................................................... 17 6.3.4 Lockwood 3500 Series Electric Mortice Locks ............................................................................... 17 6.3.5 Monitoring – Device/Status/Tamper ............................................................................................... 18 6.3.6 Power Supply Unit .......................................................................................................................... 18 6.3.7 Fire Rated Doors ............................................................................................................................ 18 6.3.8 Examples of Access Control Installations ....................................................................................... 18 6.3.9 Communication Details ................................................................................................................... 18 6.3.10 Programming and Commissioning.................................................................................................. 18 6.3.11 Soft Copy Configuration Sheets ..................................................................................................... 19 6.3.12 Labelling of Equipment ................................................................................................................... 19 6.3.13 Labelling In Gallagher Cabinet ....................................................................................................... 19 6.3.14 Battery Labelling ............................................................................................................................. 19


6.3.15 Onsite Testing ................................................................................................................................ 19 6.3.16 Testing Procedures ........................................................................................................................ 19 6.3.17 Testing Defect Sheets .................................................................................................................... 20 6.3.18 Duress, Breakglass, Keys And Miscellaneous Parts ...................................................................... 20

6.4 CCTV (Closed Circuit Television System) .............................................................................................. 20 6.4.1 Local Systems ................................................................................................................................ 20 6.4.2 Communication Details ................................................................................................................... 20 6.4.3 CCTV Servers (NVRs) .................................................................................................................... 20 6.4.4 General Camera Set Up ................................................................................................................. 21 6.4.5 Programming and Commissioning.................................................................................................. 22 6.4.6 Soft Copy Configuration Sheets ..................................................................................................... 22 6.4.7 Labelling ......................................................................................................................................... 22 6.4.8 Onsite Testing ................................................................................................................................ 22 6.4.9 Testing Procedures ........................................................................................................................ 23 6.4.10 Testing/Defect Sheets .................................................................................................................... 23

7 Approved Security Suppliers ....................................................................................................... 23

8 Manuals .......................................................................................................................................... 23

9 Warranty ......................................................................................................................................... 24

10 Gallagher & Avigilon Certification ........................................................................................... 24

11 Documentation Checklist ......................................................................................................... 24

12 Documentation & Records ....................................................................................................... 24

13 Authorisation of Variations ...................................................................................................... 24

14 Quality Control........................................................................................................................... 25

14.1 Design Standard Compliance ................................................................................................................. 25 14.2 Design Standard Certification ................................................................................................................. 25

15 References ................................................................................................................................. 25

16 Attachments ............................................................................................................................... 25

17 Document Amendment history ................................................................................................ 26

18 Appendix A - Hardware List ..................................................................................................... 27

19 Appendix B - Examples of ACID Installations & Fit Off ......................................................... 35

20 Appendix C - Commissioning Forms & Testing Sheets ........................................................ 44


1 PURPOSE

The CIS Security Services Standard sets out the University of Sydney's minimum requirements for the design, construction and maintenance of Security systems. It ensures new and refurbished systems are fit-for-purpose, made from durable good-quality materials, contain no or minimal environmentally harmful substances, and are cost efficient to operate and maintain. Applicable requirements documented in Workplace Health and Safety legislation, Disability Discrimination legislation, State Environmental Planning legislation, Commonwealth and State legislation, National Construction Codes (NCC), the Building Code of Australia (BCA) and Australian and New Zealand Standards (AS/NZS) are the minimum and mandatory compliance requirements. Where any ambiguity exists between this standard and the aforementioned mandatory requirements then:

a. the highest performance requirements must apply b. applicable requirements must follow this order of precedence:

I. Workplace Health and Safety legislation II. Disability Discrimination legislation

III. State Environmental Planning and Assessment legislation IV. All other Commonwealth and State legislation V. NCC and BCA VI. AS/NZS VII. This standard and other University standards

2 SCOPE

These Standards describe the minimum requirements for the design, construction and maintenance of all Security services throughout all buildings owned, operated and managed by the University of Sydney, to ensure the safety and protection of people, assets and “at risk” facilities. The Standard applies to planners, project managers, consultants, contractors, sub-contractors, tenants, managing agents and University staff involved in the design, construction and maintenance of existing, new and proposed University buildings and facilities. Any deviations from this standard are to be negotiated with the Campus Security Unit during the planning phase. The specific design and installation requirements for security infrastructure must be complied with unless a variation is approved as per the documented authorisation of variations process.

3 GLOSSARY OF TERMS

The Campus Security Unit has 6 designated security levels for areas and space within the university

PUBLIC SPACE areas that are patrolled and observed but are open to the public and have no natural or artificial barriers to a person’s entry.

PERMITTED SPACE areas that have either a natural or artificial barrier but where

entry is allowed for the general public who may want to enter


PRIVATE SPACE areas where there are access control points stopping general entry and people without the correct access approval must be invited or allowed entry to the area by an authorised user of the space.

PERSONAL SPACE areas such as offices and associated areas, or University

residences that are used personally by an individual or individuals.

RESTRICTED SPACE areas where the owner of the space requires there to be

special permission, equipment or training provided to a person before entry is allowed to the area. This includes PC2 labs and some research areas.

HIGHLY RESTRICTED SPACE areas that only specific people on an ‘at need’ basis are

permitted to access that have either safety, reputational risk, industrial espionage, national security or other high risk operational aspects within the area

Other Definitions ACID System the “Access Control and Intruder Detection” (ACID) Systems.

This term includes all security infrastructure installed in a facility including electronic access control systems, alarm systems, mechanical locks and hardware and the Closed Circuit Television systems.

Access Control May be either a hardwired access control door or a wireless

access control door depending on the application and client requirements.

Full Access Control This term is used when a full hardwired access control door with full monitoring capability is required.

At Risk Facility ‘At risk’ facilities and systems have an above-average risk of security incidents and specifically include any facility that:

• has a highly restricted space within the facility; • stores or uses hazardous chemicals, radioactive

materials or security sensitive biological organisms; • has a critical asset or critical safety priority alarm

system within the immediate area; • is a possible target for robbery e.g. banks and ATMs,

etc.; • attracts crime e.g. libraries, computer labs or areas

used for student gatherings; • has 24 hour continual operation such as student hubs,

study areas, or ICT access labs; • has poor natural surveillance, or low pedestrian traffic

e.g. buildings away from the main pedestrian corridors;

• sells alcohol; or


• Is important to the University’s reputation, where a security incident could cause reputational damage e.g. heritage buildings, museums, libraries, and labs.

Natural Surveillance Is the ability to provide surveillance activities as a by-product

of normal and routine use of the area as opposed to formal surveillance through the use of Security staff, access control and CCTV

Alarm Priorities

The following information details the alarm monitoring priorities within the ACID system of the University. Any installed alarm must fall within one of these monitoring criteria.

Critical – Safety Alarm The individual alarm point monitors a situation where the alarm activation and the expected operator response are considered to be a “layer of protection” against a life threatening or major accident hazard scenario. Alarm response is considered immediate priority.

Critical – Duress Alarm Wired or wireless single alarm point providing covert alarm notification to Security requiring immediate monitoring response and Security Patrol Response within 10 minutes of activation used only when overt notification using conventional communications methods would increase physical safety and security risks.

Critical – Asset Alarm An alarm point monitoring a physical or virtual resource, product or service of such significant importance that incapacity or destruction would have a debilitating impact on:

1. The operational capability or reputation of the

University as a whole or, 2. Significant research or operational capability of the

departments, faculties or professional service units within the University of Sydney.

High – Perimeter Alarm Single point alarm monitoring a building’s exterior or internal perimeters or an internal point of access to a restricted area requiring Security Patrol response within 15 minutes of activation.

Medium Alarm Single point or area alarm monitoring for interior building spaces requiring Security Patrol response within 30 minutes of activation.

Low Priority Alarm Single point or area alarm monitoring designated interior

building spaces requiring Security Patrol response within 4 hours of activation.


Maintenance Alarm System alarm monitoring designated system components requiring maintenance for notification to the Electronic Maintenance Technicians.

Message Only System only alarm where the event is recorded within the

ACID system, however there is no active monitoring and no operational response required

Not An Event Event occurs electronically only and is not recorded or

monitored within the ACID system

4 AUTHORITIES & RESPONSIBILITIES

This Standard is owned by CIS. It is approved and signed off by Director CIS. The Campus Security Unit is responsible for maintaining the Standard and ensuring the information is up-to-date and relevant. The Standard must be reviewed at least biennially.

5 DESIGN DETAILS

5.1 AIM

The design and planning of University buildings and facilities will aim to:

a) increase the effort required to engage in criminal or anti-social behaviour;

b) increase the perceived risk of engaging in criminal or anti-social behaviour;

c) reduce the rewards from a criminal or anti-social act; and

d) reduce the availability of excuses for criminal or anti-social behaviour.

5.2 GENERAL INFORMATION ON BASIC DESIGN

a) The University operates into the night, so lighting and natural surveillance are important. Project Design must provide efficient lighting and security infrastructure beyond the building perimeter to a recognised pedestrian corridor.

b) The two primary electronic systems used at the University are Gallagher for access control and alarm monitoring and Avigilon for CCTV. No other systems are to be installed unless signed off by the Campus Security Unit. The University has existing head-ends for both programs. No security installation must be stand alone.

c) Frameless glass doors must not be used as access control points unless they are either auto doors (sliding or swing) with high level IO interface boards or single / double doors fitted with Mag Locks and door closes.

d) All doors on perimeters of buildings are considered access control points and require either full-access control or alarm systems as well as mechanical locks.

e) Any window viewing panels installed in a solid access control door must be at a height above 1200mm (from bottom up) otherwise they will interfere with standard security cabling.

f) The Head Contractor, in consultation with the CIS Project Manager, is to provide all required final security design documentation and floor plans to the Campus Security Unit for approval of the finalised scope of works.


5.3 SECURITY LIGHTING

The following table is provided as the minimum security lighting requirements for areas, these are the minimum for security purposes and projects must meet these levels or Australian Standards (which ever are higher) within the lighting design for areas. Lighting needs to be sympathetic to CCTV and designed appropriately not to blind CCTV at night.

Locations IIIuminance measured at 1.6m Car Park Entrances 120 Lx

Parking Bays 20 Lx 40 Lx (disabled)

Entrances to 24 hour study spaces 80 Lx external to a distance of 10 meters

Internal Stairs, fire exits, external stair exits 80 Lx (internal) 20 Lx (external)

Main Pedestrian Corridors, passageways and ramps 40 Lx Pedestrian Crossings, shared pedestrian areas 40 Lx Emergency Evacuation Assembly Areas 40 Lx General lighting (outdoor Space) 10 Lx minimum in low use area External Emergency Duress Points 120 Lx to 5 meters (blue tint) Open Area bike racks 40 Lx External Public Toilets 80 Lx

5.4 GENERAL ELECTRONIC SECURITY INFORMATION

a) All Access Control and Intruder Detection (ACID) installation specifications must be reviewed and approved by the Campus Security Unit in the pre-tender phase.

b) All electronic system installations must be turnkey solutions. c) Gallagher Command Centre (Version 7) is the current University platform. d) All equipment must be connected to the University Gallagher Command Centre head end via the

University IP Network. e) Gallagher Dual Cabinets, with 8amp PSU, must be used for all installations. f) Gallagher FT 6000 controller with 8 door module ONLY must be used for all installations.. g) 8 input, IO and HD IO expansion boards must be used for all installations. h) Gallagher T11 Multitech Readers or Prox Plus readers (Mifare series) must be installed on all

hardwired access control doors. i) Lockwood Aperio locksets must be used on any wireless access control door. j) Jacques intercoms to be used for all installations. 5.5 GENERAL MECHANICAL SECURITY INFORMATION

a) Keying charts and hierarchies must be created by the University master locksmith and all locks installed in projects must be part of the University Bi-lock system

b) Only Lockwood door hardware and Lockwood or Briton panic bars must be used. c) The project is to install all hardware including construction locks and quick change cylinders on the

Bi-Lock system. d) The builder will be provided with quick change cylinders keyed off the University Master (specific

for the project) which remain property of the University. The keys to these locks must be a builder’s keys that will not be usable by the University.

e) Large projects or any new buildings must install a key cabinet on the University Key Management system in an appropriate area for the use of CIS contractors and staff to monitor master keys for the building.


5.6 CLOSED CIRCUIT TELEVISION (CCTV)

a) The University uses a complete digital CCTV system integrated into Gallagher Command Centre Version 7 and all CCTV installations specifications must be reviewed and approved by the Campus Security Unit in the pre-tender phase.

b) Avigilon products must be used for CCTV Systems and are available from the University’s preferred suppliers, (unless otherwise specified by the Campus Security Unit).

c) All cameras must record back to the University data centre and no NVR for the project is to be installed on site at the project unless Campus Security Unit approves the use of onsite storage due to a specific limitation.

5.7 INSTALLATION AND COMMISSIONING a) Installation must only be carried out by University Approved Security Contractors. b) Security systems can only be commissioned after the University ICT systems are commissioned

within the building; there can be no exceptions to this as the ACID system will not function until the IT system is working.

c) Configuration sheets must be provided 28 days prior to commissioning to allow adequate time for programming. Configuration sheets are provided in Appendix C.

d) Keys and barrels will be supplied by the University on practical completion and the builder must provide a minimum of 28 days’ notice prior to practical completion for the lock barrels to be created.

e) Project managers must provide the user lists to the University Master Locksmith 28 days before practical completion.

5.8 ACID (ACCESS CONTROL & INTRUDER DETECTION) ZONES & SPECIFICATION FOR DESIGN

5.8.1 AREA TYPE 1 - OPEN SPACE AROUND BUILDINGS (PUBLIC SPACE)

a) Areas must have general CCTV surveillance of pedestrian corridors, gathering areas and emergency evacuation areas with sufficient resolution to provide facial recognition of persons at a distance of 10 metres from entry points.

b) Surveillance cameras must be fixed to buildings, not poles. c) All external cameras and lenses must be IR-capable for low light operations, unless otherwise

specified. d) Single directional CCTV is sufficient for external areas. e) Over 75% of the available open space that is specifically used as part of the facility must be

covered by the CCTV installation. f) External cameras must be mounted above 4 m. If this is not possible they must have vandal proof

housings. g) All housings must be fitted with heaters and blowers. h) University prefers fixed high-end megapixel monitoring over PTZ (Pan Tilt Zoom) systems. 5.8.2 AREA TYPE 2 – MAIN PEDESTRIAN CORRIDORS AND ROADS

a) Pedestrian corridors and roads from main building entrances and areas must be covered by additional lighting and CCTV back to the nearest road or main pedestrian corridor.

b) Pedestrian walkways, paths and main roads must be fitted with single directional cameras to allow recognition of persons on or near paths and to identify incidents.

c) These cameras are to be attached to buildings rather than poles where possible and meet the requirements in Area type 1 for external installations of CCTV

d) Cameras are to be focused at the mid-point of the visible pedestrian corridor or road and provide 246 pixels/m at that point


5.8.3 AREA TYPE 3 - MAIN ENTRANCE DOORS

a) Main entrance doors to buildings are to be externally fitted in a suitable location with a Jacques Intercom with integrated emergency button hard wired into the Gallagher system.

b) These points are to be lit after hours as per 6.2 of the design guide. c) This emergency intercom is to be covered by a dedicated CCTV camera no closer than 20 meters

that shows at least 10 square meters around the intercom. d) Minimum image resolution at the intercom is to be 246 pixels/m to achieve consistent acceptable

facial identification. 5.8.4 AREA TYPE 4 - ENTRY FOYERS AND OPEN SPACE WITHIN BUILDINGS (PUBLIC SPACE)

a) Main entrance surveillance must at least allow visual identification of persons entering the building. Identification of persons departing the building is desirable but considered a lower priority. Installers must typically design for both where possible.

b) Minimum image resolution at all main building entrances is 246 pixels/m to achieve consistent acceptable facial identification.

c) Identification of persons exactly at entrance points (i.e., doors) is not required to achieve CSU security requirements. Avoid positioning and aiming cameras directly at entrances because main entrances have inherent interior/exterior lighting contrast / backlighting which creates problems with the sharp transition from sunlight to shade.

d) The installer must identify camera aiming points within 3 m of the interior of main entrances and position cameras to eliminate or minimise lighting contrast (backlighting) problems while still providing facial recognition at the specified level of 246 pixels/m.

e) Interior main entry point cameras must be full body types (**MP-HD-DN) in suitable housings. These highly visible housings are a desirable CCTV deterrent at the main entry points. Where interior installation of full body housings may not always be possible due to aesthetic considerations, single directional CCTV 360 and 180 degree cameras may be installed.

f) Natural gathering areas and seating spaces, such as lunch areas and cafeterias that are within public areas must be specifically covered by CCTV.

5.8.5 AREA TYPE 5 - EXTERNAL PERIMETERS OR INTERNAL DOORS INTO SECURITY ZONES (POSITIVE

CONTROL POINTS)

a) Any doors that are designated entry / exit doors through the external perimeter, or that lead internally to ‘at risk’ security zones, must be fitted with full access control.

b) Doors through any perimeter or into security zones are to be solid core doors in steel rebated frames, walls are to be solid of non-penetrable construction not stud and gyprock.

c) Double rebated doors must have electric mortise locks, door closers and lockable drop bolt on the fixed leaf.

d) Single Doors must have electric mortise locks and door closers. e) Frameless glass doors have to be either auto doors integrated and controllable through the

Access Control system or single directional swing doors fitted with maglocks. f) Any doors that are not primary access doors that bypass the access control zone must be fitted

with recessed mounted reed switches and screamers on the outer perimeter. These are not available for use into the zone except through the security perimeter bi-lock key

g) No bypass keys or systems that lead around a security door are permitted. h) Over-ride keys must be the University Bi-Lock Security Master that are not provided outside of

Campus Security. 5.8.6 AREA TYPE 6 - CAR PARKS (OPEN SPACE)

a) Car Parks are considered open space and cannot be used for private parking unless specifically authorised

b) The University does not support the use of boom gates or private parking for building users


c) All bays are to be clearly marked and the University standard signposting is to be provided by the project for SIENS enforcement.

d) All designated bays are to be marked for purpose including University owned, loading bay, disabled etc.

e) All car park bays must be individually consecutively numbered from 1 through to the last bay. f) Access Control is only used after hours and must be through a Gallagher reader external to the

car park and accessible from inside the vehicle. g) Ticket machines appropriate to the number of parks and linked to the University parking systems

must be installed in all publically available car parks h) Any car park roller shutters must be fitted with an automatic exit loop and additionally must be

connected and controlled from the Gallagher system. i) Parking spaces must be covered by general CCTV to identify all vehicles parking and leaving

individual car facilities. j) Cameras installed under 3 metres in height must be in vandal resistant housings and IR

compatible. k) CCTV cameras must recognise number plates of Vehicles entering and leaving the car parking

facilities. l) Duress intercoms linked into the Gallagher system must be fitted near lifts and entry / exit points

and be covered by CCTV. 5.8.7 AREA TYPE 7 - BIKE STORE AREAS (OPEN AREAS OR PERSONAL / PRIVATE SPACE)

a) Access control must be provided on any entry points to secure bike storage areas. b) CCTV cameras providing facial recognition at the specified level of 246 pixels/m must be at

entrances to a bike storage area c) Open area bike storage must be covered by CCTV along the entire bike rack and lit appropriately d) Bick racks are to be designed close enough to main entrances to be convenient but are not to be

part of the general entry way

5.8.8 AREA TYPE 8 - LECTURE THEATRES, GENERAL TEACHING AREAS AND TUTORIAL ROOMS (PUBLIC SPACE)

a) Electronic access control is only needed on internal doors to a teaching space that is specifically bookable

b) Access Control is not necessary on General Teaching Areas, seminar rooms or tutorial spaces unless they are specific areas that contain high value specialised equipment.

c) University bi-lock must be fitted to appropriate doors. d) Bi-lock keys must be fitted to AV specific areas. e) Unless specifically requested there is no requirement for internal intruder detection or internal

CCTV. 5.8.9 AREA TYPE 9 - PLANT ROOMS AND CIS SERVICE AREAS (RESTRICTED AREA)

a) Individual doors inside plant and service areas must be placed on specific bi-lock key as per University standard e.g. comms key, Plant Key, Electrical Key, Roof Key, Lift Key

b) Doors are to be solid core doors in steel rebated frames, walls are to be solid of non-penetratable construction not stud and gyprock

c) Only shared service areas (such as areas containing multiple services such as plant / comms) and that are accessed from any public space are to be on Access Control

d) A PIR must cover any shared access space where appropriate but not in specific service rooms or areas

5.8.10 AREA TYPE 10 - 24 / 7 ACCESS LABS AND TEACHING AND LEARNING SPACE (‘AT RISK’ AREA)

a) 24-Hour Spaces at the University are identified as interior building spaces regularly used by students (including post graduates) on a 24 hour basis or areas regularly used after normal building operating hours. This excludes after-hours lectures and classes.


b) 24-Hour Spaces may be accessible to all University students or restricted for use of specific departments or faculties. Some spaces may also be restricted for use by post graduate students only.

c) 24-Hour Spaces require increased security measures which include high density CCTV coverage and appropriate lighting.

d) An external perimeter door must lead directly to the area, and any doors from the area to the general building must be internal perimeter doors.

e) Walls and Doors are to be penetration proof and not simple stud and gyprock construction f) Areas must be secure after hours and separated from the general building to ensure they do not

provide access to the building in general. g) The areas must have toilet facilities within their access zone. h) Duress intercoms linked into the Gallagher system must be fitted near lifts and entry / exit points

covered by CCTV i) At least 75% of the interior space must have CCTV coverage with a minimum resolution of 120

pixels/m. j) Due to minimal low light requirements, Avigilon 360 degree panoramic cameras spaced at 10

metre intervals are considered the most cost effective to deploy. k) Avigilon 180 degree panoramic cameras can also be deployed in areas too narrow for 360 degree

cameras (typically less than 4 metres wide). l) Avigilon panoramic cameras must not be deployed to provide coverage for entrances to 24-Hour

Spaces unless approved by CSU. m) Entrances to 24-Hour Spaces require a specific Access Control reader, the reader and area

surrounding the reader must be covered by an external CCTV camera to a distance of 10 meters. n) Internally the entrance door must have CCTV coverage meeting a minimum image resolution of

246 pixels/m via a dedicated camera. Avigilon 2MP or 3MP-HD-Dome-DN cameras meet these requirements and must be deployed not further than 5 m from the entrance.

o) Any desks or other hot desk workspaces in general areas must have a separation barrier from floor to desktop to stop people from other workspaces taking bags and items left on the floor under the desk.

p) Separators and dividers between workstations must be no higher than 1200mm from the floor 5.8.11 AREA TYPE 11 - LIBRARIES AND HIGH TRAFFIC PUBLIC SPACES

a) Duress intercoms linked into the Gallagher system must be fitted near lifts and entry exit points covered by CCTV

b) At least 75% of interior space must have CCTV coverage with a minimum resolution of 120 pixels/m.

c) Due to minimal low light requirements, Avigilon 360 degree panoramic cameras spaced at 10 metre intervals are considered the most cost effective to deploy.

d) Avigilon 180 degree panoramic cameras can also be deployed in areas too narrow for 360 degree cameras (typically less than 4 metres wide).

e) Entrances to Libraries and High use public spaces require personal recognition and must have CCTV coverage meeting a minimum image resolution of 246 pixels/m via a dedicated camera. Avigilon 2MP or 3MP-HD-Dome-DN cameras meet these requirements and must be deployed not further than 5 m from the entrance.

f) Any desks or other hot desk workspaces in general areas must have a separation barrier from floor to desktop to stop people from other workspaces taking bags and items on the floor.

g) Separators and dividers between workstations must be no higher than 1200mm from the floor h) Any areas that are used for student hot desk workstations must be specifically covered by CCTV 5.8.12 AREA TYPE 12 - CAFÉ LEASED AREAS

a) Any leased area must be secured by the tenant at their cost and to their specification. b) These areas must be secured separately and not be accessible through the general building or

have egress into the general building after hours.


5.8.13 AREA TYPE 13 - GENERAL STAFF OFFICES (PRIVATE SPACE)

a) Internal office doors must have personal bi-lock keys b) In cases where no key is to be provided to the users, the doors must still be rebate doors,

specifically cut before installation to take a full mortise lock even if it is only fitted with a passage set

5.8.14 AREA TYPE 14 - RESTRICTED STAFF OFFICES (PRIVATE SPACE)

a) Internal Perimeter Doors to restricted office areas must have full access control. b) Office doors within the perimeter must be on personal bi-lock keys. c) If it is only a single office that is restricted, it must have access control as a minimum d) A PIR must be provided in common areas and in any restricted office. e) Phones and phone lists must be located adjacent to the outside door of any restricted area to

allow for access. f) If the area is specifically sensitive, CCTV coverage of the entrance and reception area must have

a minimum image resolution of 246 pixels/m. Avigilon 2MP or 3MP-HD-Dome-DN cameras meet these requirements and must be deployed no further than 5 m from the area.

g) If duress systems are necessary, they must be non-audible with dual action switches fitted in discreet locations and programmed into Gallagher with only Security having the reset key.

5.8.15 AREA TYPE 15 - FIRE STAIRWELLS (INTERNAL PERIMETERS)

a) Full access control must be provided on the doors from the stairwell to other floors and areas if they are trafficable stairs between floors.

b) Only the door to the external perimeter must be on free egress, exit only. 5.8.16 AREA TYPE 16 - LIFTS (INTERNAL PERIMETERS)

a) Lifts must have full access control capability b) All lifts must be fitted with a single ceiling mounted Avigilon 1.0MP-HD-DOME-DN Camera fitted

with 3.5-10mm vari-focal, auto-iris, IR corrected lens. c) Camera must be located in a corner of the lift ceiling with the field of view adjusted to observe lift

buttons, floor level indicators, lift doors, and as much of the interior as possible using up to 120 degree viewing angle.

d) Camera must be housed in an Avigilon ceiling or dome mount as suited to the specific installation and positioned to accommodate lighting or other fixtures.

e) Camera and housing substitutions are not permitted.

5.8.17 AREA TYPE 17 - ALL LAB TYPES AND RESEARCH AREAS (RESTRICTED SPACE)

a) Doors from public areas must have full hardwired access control. b) Doors from private space leading to lab areas are to have access control c) Doors are to be solid core doors in steel rebated frames, walls are to be solid of non-penetratable

construction (not stud and gyprock) d) Any Internal Perimeter Doors from one area to another must have hardwired access control. e) Access from any corridor to any clean room must be on access control. f) Internal lab office / storage doors must be on personal bi-lock keys. g) A PIR must be provided in common areas and in any restricted area within the lab. h) Phones or intercom must be adjacent to the outside door for restricted access and communication

with people inside i) If the area is specifically sensitive, CCTV coverage must have a minimum image resolution of 240

pixels/m via a dedicated camera. Avigilon 2MP or 3MP-HD-Dome-DN cameras must typically meet these requirements and must be deployed no further than 5 m from the area. Cameras must


be positioned to observe the entrance area. j) If duress systems are necessary, they must be single push switches fitted in clearly marked and

obvious locations. They must also activate audible sirens external to the lab with strobe lights fitted and an isolation switch for the siren must be provided in the external area near the intercom. Alarms must be programmed into Gallagher and only to be reset by Security.

5.8.18 AREA TYPE 18 - HAZARDOUS MATERIALS STORAGE (RESTRICTED SPACE)

a) Perimeter Doors must have full hardwired access control. b) Doors are to be solid core doors in steel rebated frames, walls are to be resistant to penetration

not stud and gyprock c) Internal spaces and specific doors within the area must be on personal bi-lock keys. d) A PIR must be provided in common areas and in any specifically restricted area. e) If the area is specifically sensitive, CCTV coverage must have a minimum image resolution of 240

pixels/m via a dedicated camera. Avigilon 2MP or 3MP-HD-Dome-DN cameras typically meet these requirements and must be deployed no further than 5 m from the area.

f) Duress systems must be fitted internally as single push switches fitted in clearly marked and obvious locations. They must also activate audible sirens external to the store with strobe lights fitted. An isolation switch for the siren only must be provided in the external area near the duress intercom.

g) Duress intercoms linked into the Gallagher system must be fitted externally near the entry door. 5.8.19 AREA TYPE 19 - CRITICAL FACILITY ALARM MONITORING (‘AT RISK’ FACILITY)

a) Critical Asset Alarms must monitor hazardous material stores, -80 degree or -21 degree freezers containing high value research, gas monitoring systems, emergency generators, emergency systems, safety systems, critical research areas or single fail points that are essential to client operations.

b) These alarm points are specific to client needs and individual circumstances and MUST be organised and approved through Campus Security Unit

c) Any high risk or critical alarm point needs an individual incident response plan detailing:

• Background and location of the alarm point. • What the alarm is protecting and critical factors. • Conditions under which it must activate. • Hazards or other warnings about the alarm point. • First response actions to be taken by security responding officer. • Secondary actions. • Reporting requirements and Client call-out communication phone numbers and sequence. • Date to be reviewed by the client.

d) The University does not support the use of individual SMS systems as these are single point of

failure devices and have high failure rates 5.8.20 AREA TYPE 20 - MUSEUMS, ART WORKS, ANATOMY STORES AND SPECIAL FACILITIES

Facilities must be designed to reduce the risk of a foreseeable loss from occurring to any object in a collection, while on display or in storage on University grounds. All Museums and Collections must meet the following security requirements: a) All exterior doors must have full Access Control and full integrated alarm monitoring. b) All exterior windows which open shall have magnetic switches or other sensing devices generating

an alarm if a window is opened or left open when the facility is secure. When windows are key


locked by Campus Security or otherwise secured, this provision may be waived if there are internal PIRs or CCTV.

c) All exterior doors which have glass, and all exterior windows, shall have glass break detecting devices that alarm when the glass is broken, or interior volumetric motion detection to sense intrusion. When practical, combining both methods is preferred.

d) At strategic places throughout the building there must be motion detection to detect the unauthorized movement of people through the building or area, and to detect persons staying behind after hours. In higher risk facilities this will need to be linked to CCTV.

e) High risk or high value collection storage rooms must have full access control monitoring and internal alarms. They must remain locked at all times and shall be alarmed when not occupied. The walls to these areas must be a minimum of single besser brick construction and doors shall be a minimum of solid core door lined with 1.8mm steel, opening outwards with steel rebated door frame. Sensors shall be installed in the room or on the interior walls of the room to detect forced entry through the walls. Ducts and other possible points of entry necessitate motion detection or equal protection.

f) Safes and vaults which contain collections, money, or other valuables shall be alarmed or must be located inside secure storage rooms or rooms which are protected by motion detection.

g) Selected items on exhibit or in cases may need the additional protection of detection devices that are active 24 hours per day. The determination of which items must be alarmed will depend on value, replacement ability, sensitivity to controversy (such as political and social considerations), ease of sale by a thief, and vulnerability to damage by vandalism or unintentional curiosity such as visitor touching.

h) Items that can be secreted on the person, under a coat, or in a briefcase, purse or box must be displayed in exhibit cases. The following items must always be displayed in exhibit cases or permanently affixed to the building so that they cannot be removed: items made of precious metals, gems, firearms, edged weapons, currency, coins, jewellery, and stamps.

i) Selected paintings hung in exhibitions must be alarmed so that they signal the monitoring station and/or a local mimic panel display (if available) when they are touched or moved. The device must alarm if the painting is removed from the wall or when it is lightly touched either by the hand or by a knife blade or similar tool.

j) Selecting which items to secure and/or alarm is the responsibility of the Museum Director or curator of the collection.

k) Alarm systems will be defined as Critical Alarm - Assets within Command Centre l) Collection storage rooms must not be on the building master or grand master key. Access must

be granted only to those needing access as part of their job as identified by the museum signatories. (Note CSU will consider restricted red lock (Critical System) barrels for this application)

5.8.21 AREA TYPE 21 – DRUG CABINET AND STORAGE AREAS

Any drug that may be restricted, not publically available or may be vulnerable to criminal or intentional misuse must be covered by additional security requirements regardless of its classification. These drugs must: a) Be maintained and stored in a secured fridge or safe contained in specific secured area of the

building b) The safe is to be covered in a top down view by a specific CCTV camera, 1 MP is generally

sufficient c) Doors to the specific area are to be solid core doors in steel rebated frames, walls are to be

resistant to penetration not stud and gyprock d) Doors are to be fitted with hardwired access control


6 GENERAL HARDWARE & INSTALLATION REQUIREMENTS

Only hardware contained in Appendix A may be used for mechanical and electronic security installations without specific approval of the Campus Security Unit.

Contact the Campus Security Unit Technical Services Manager to install equipment that is not listed in the schedule,.

6.1 ICT STANDARDS

a) Any work on the structured wiring on the University ICT Network must only be carried out by an ICT approved contractor. Security Installers are not authorised to work on the University ICT network and can only connect to cabling and equipment installed by an ICT-preferred contractor.

b) Refer to the ICT Design and Installation Requirements Documents for further information on integrating the Security Systems into the ICT Network.

6.2 INSTALLATION DETAILS & CONFIGURATION

6.2.1 LOCATION OF EQUIPMENT

a) All security equipment such as controllers, NVRs and interface units must be installed in a restricted, lockable and where appropriate air conditioned areas; in a dedicated low voltage cupboard.

b) Equipment installed in unsuitable, hazardous or unapproved areas will be identified as defective and must be relocated before commissioning. Unapproved areas include general public and/or private office spaces, hallways, lecture theatres, etc.

6.2.2 WIRING & CABLING

a) All wiring must be totally concealed and must be installed so that it can be readily removed, repaired or replaced.

b) Cables must be protected by conduit or cable duct where there is risk of mechanical damage. c) Attention must be paid to voltage drop calculations when determining cable sizes. d) Cabling to all detection and monitoring devices must be sized and installed in accordance with the

product installation manuals and the manufacturer recommendations for equipment. e) Attention must be paid to line requirements for attenuation and installers must allow for any line

amplification. f) All devices are to be wired ‘normally closed’ and end of Line resistors must be 4k7 as per

Gallagher Standard. g) Alarm point cabling must be run individually to equipment boxes and grouped for connection to

alarm point. h) Device in-outs such as motion detectors, reed switches, etc. must be wired with individual

common return wires. i) Cables must be run for their entire route length without any joins. j) Heat shrink to be used instead of electrical tape to protect joins and terminations. k) Cabling in fire stairs must be in steel conduit in accordance with AS3000.

6.2.3 CONDUITS

Exposed conduits must not be used unless authorised by the Project Manager. If authorised, they must be:

a) Rigid UPVC. b) Joined using an approved solvent cement. c) Secured using single-sided metal saddles spaced at 500 mm (maximum) centres and within 150

mm of the fittings. d) Installed so that cables can be drawn in at draw boxes only.


e) Minimum 20 mm internal diameter inside.

6.2.4 CABLE DUCT

Exposed cable ducts must not be used unless authorised by the Project Manager. If authorised, they must be:

a) Fitted with removable covers. b) Fitted with the manufacturer's standard bends, elbows, couplings and reducers. c) Manufactured from extruded PVC or steel. d) Matched to the colour scheme at the installation location where possible.

6.2.5 LOCKSMITH INSTALLATIONS BY SECURITY INSTALLER

Locksmith contractors/subcontractors must ensure all works are completed as per the following operational requirements: a) Pre-existing door defects e.g. warped, bowed, damaged doors, etc must be reported prior to

beginning installation b) Once installed the lock tongue must fully latch in strike c) Door must close from a 25 degree angle smoothly. If not, report defects on the door testing sheet

and submit to the Campus Security Unit.

6.3 ACID SYSTEMS: SITE SPECIFIC INTEGRATION, HARDWARE INSTALLATION & CONFIGURATION

6.3.1 STANDARD ACID READERS

a) The standard card reader to be installed in all new installations is the Gallagher T11 multi tech black reader, Product Number C300430. The Gallagher Prox Plus Mifare Series Charcoal, Product Number C197720 is to be used when both the double card override and arm alarm zone options would need to be utilised (i.e. where the card reader is used for manually locking/unlocking lock AND arming/disarming)

b) Any Aperio systems must be part of the Gallagher system and are not to be standalone systems.

6.3.2 ELECTRO MAGNETIC HOLD BACKS

Any hold back on an access control door must be connected via two relays: one for the fire system to close the door in event of fire trip and the other for the Gallagher relay to magnetise the hold back during ‘free access’ times. Cabling to hold back from the fire panel must be completed by the essential services provider as part of any relevant project. Cabling for security relay must be provided by the security installer.

6.3.3 FIRE TRIP

Fire Trips must be connected via a normally closed contact with appropriate relay in a separate junction box next to a security power supply. The security contractor must connect to the appropriate device (to ‘cut power’) as required. Where fitted, the fire trip must have a separate contact to monitor when it is activated. This must be monitored as an input via the Gallagher system.

6.3.4 LOCKWOOD 3500 SERIES ELECTRIC MORTICE LOCKS

a) The University currently uses Lockwood 3580 series (monitored – reed switch/hub/key override) and Lockwood 3570 series (monitored – reed switch/hub/key override) including extended back sets electric mortice locks.

b) Reed switch and deadlatching/locking bar monitoring circuits must be in series.


c) All mortice locks must be configured ‘fail secure’ for ingress. If an egress path is locked, ‘fail safe’ configuration is required, including monitored double pole break glass.

6.3.5 MONITORING – DEVICE/STATUS/TAMPER

The various items of Gallagher equipment, power supplies, cabinets etc, must be fitted with status monitoring, tamper switches, and other detection devices to prevent interference with, or failure of the equipment. All such devices must be fully wired and programmed into the Command Centre so an alarm is raised at the CMS if any failure or abnormality is detected (please refer to Gallagher Installation Manuals). Alarms to be monitored include: a) PSU Mains fail. b) PSU Low battery. c) Cabinet tamper for all cabinets including power supplies d) Door open / door open too long e) Door Not Locked (inc, bond sense) f) Door forced g) Break glass broken h) Fire trip activated i) Motion detector activation j) Motion detector tamper k) Glass Break detector tamper l) Glass break detector activation m) Duress activation n) Freezer activation o) Button release p) Open circuit tamper q) Short circuit tamper r) Input Open/Closed s) Output On/Off.

6.3.6 POWER SUPPLY UNIT

Power supply information must be detailed in project specification. The preferred power supply enclosure is the Gallagher Dual Cabinet Enclosure.

6.3.7 FIRE RATED DOORS

When fitting access control to fire rated doors, the Assa Abloy 8810 transfer lead must be used.

6.3.8 EXAMPLES OF ACCESS CONTROL INSTALLATIONS

Refer to Appendix B for examples of how access control doors are integrated into spaces, with the various hardware used at the University. 6.3.9 COMMUNICATION DETAILS

All communications from the electronic security devices must be arranged by the Project Manager through the Campus Security Unit. This includes IT communications and PABX communications (if required) for all controllers.

6.3.10 PROGRAMMING AND COMMISSIONING

a) All programming regarding the general configuration of new installations must be done by the Sydney University Security Maintenance Contractor as per the Maintenance Agreement.


b) Configuration sheets (see table below) must be used for all access control and alarm system installations at the University of Sydney. A power supply sheet must be submitted for each new single power supply.

c) The configuration sheets must be submitted in soft copy format d) Please make sure each field is filled in accordingly. The format must always be: Building code,

level, room number, location (if required) and device description (see device naming conventions). NO DOOR NUMBERS WILL BE ACCEPTED. BUILDING NAME IS NOT REQUIRED.

For example: Building Code Level Room Number Location Device Description G12 L1 127 North East Door Open F13 L3 313 REX

As written in the configuration sheets: INPUT 1 G12 L1 127 North East Door Open TEST INPUT 2 F13 L3 313 REX TEST

6.3.11 SOFT COPY CONFIGURATION SHEETS

The Campus Security Unit Technical Services Manager will provide electronic copies of configuration sheets on request. The current versions can be found in Appendix C.

Configuration Sheet 6000 Controller Configuration Sheet 8 Input Expansion Configuration Sheet 8 IO Expansion Configuration Sheet HD IO Expansion

6.3.12 LABELLING OF EQUIPMENT

All labelling will be completed by the Sydney University Maintenance Contractors. 6.3.13 LABELLING IN GALLAGHER CABINET

The sticker provided by Gallagher for every cabinet, controller and expansion board must be filled out and neatly fixed to the inside of the cabinet. The sticker must be written out in pencil and the naming conventions must copy details of the configuration sheet provided to the Campus Security Unit.

6.3.14 BATTERY LABELLING

All batteries must be marked with the date of installation (format dd/mm/yyyy) on top of the battery. 6.3.15 ONSITE TESTING

A date and time must be organised by the Campus Security Unit Technical Services Manager. The testing must be completed only when the devices are connected to the university network.

6.3.16 TESTING PROCEDURES

a) Door testing sheets, defect sheets and PSU Details sheets must be completed by the installer and given to the Campus Security Unit at the testing stage. These sheets must be scanned and emailed to the CIS Project Manager.

b) Each installed item must be individually tested by an independent and qualified installer under the direction of the Campus Security Unit.

c) Once defects have been rectified, another date/time may be organised to test. Once all defects have been confirmed as fixed, the installer must send their practical completion certificate to the


Campus Security Unit Technical Services Manager. The practical completion certificate must then be signed off and sent back to the security installer.

6.3.17 TESTING DEFECT SHEETS

Standard testing and defect sheets that inform installers of commissioning requirements can be found on the Campus Infrastructure & Services website or below in Appendix C.

Testing Sheet Door Testing Sheet Testing Sheet PSU Details Testing Sheet Defect Sheet

6.3.18 DURESS, BREAKGLASS, KEYS AND MISCELLANEOUS PARTS

All keys and miscellaneous parts, including duress button keys and breakglass keys, must be given to the commissioning technician at the time of testing. These must then be provided to the Campus Security Unit. 6.4 CCTV (CLOSED CIRCUIT TELEVISION SYSTEM)

a) The University uses Avigilon products for its CCTV systems. b) The Campus Security Unit preference is for all cameras to record to the University’s NVRs that are

located in the University data centre. On site NVRs and local storage solutions are only permitted in special circumstances after negotiation with the Campus Security Unit.

c) Project Managers and contractors must confirm storage, data requirements and bandwidth with the Campus Security Unit before tendering and installing for inclusion in the IT Planning for the project.

d) Base considerations for CCTV installations are as follows: i. Open Space areas require generalised recording capability and the ability to live monitor

the area ii. Foyers and permitted areas require at least a 360 degree camera to cover all areas and

monitor people in the space. iii. Entry points into Restricted and Highly Restricted security areas require installation of

cameras to allow facial recognition on entry and exit iv. At Risk areas require facial recognition and general monitoring capability from the control

room

6.4.1 LOCAL SYSTEMS

All cameras must be connected to the University Network and no local monitoring or recording must be installed without the express permission of the Campus Security Unit. This is due to the University Privacy Management Plan. Any local monitoring cannot have read / copy permission.

6.4.2 COMMUNICATION DETAILS

All communications from the electronic security devices must be arranged by the Project Manager through the Campus Security Unit. This includes IT communications and PABX communications (if required) for all controllers. 6.4.3 CCTV SERVERS (NVRS)

a) All CCTV data storage must be configured on Avigilon 15.0TB-HD-NVR-LPR Network Video Recorder Servers (NVRs) with second processor installed (-LPR option).

b) All NVRs must be equipped with Avigilon HD-NVR-2ND-PS Redundant Power Supply and Avigilon HD-NVR-EXP2-CARD Storage Expansion Card.


c) Unless otherwise specified by USYD CSU all NVRs must be installed within the University’s allocated storage space at Global Switch Sydney Data Centre (Ultimo).

d) Requirements for NVRs must be determined by calculating the total incoming camera network (Mbps) bandwidth using the following chart:

Avigilon Camera Type IPS QL Mbps 29MP 2 6 33.4 16MP 2 6 15.7 11MP 2 6 12.6 5MP 4 6 11.9 3MP 4 6 7 2MP 4 6 4.9 1MP 4 6 2.4 180MP 4 6 18.4 360MP 4 6 18.4

e) A single Avigilon 15.0TB-HD-NVR must be provided for every 256 Mbps of calculated

bandwidth per NVR. For bandwidth calculations that fall below 100Mbps, the Campus Security Unit must be consulted to determine existing storage capacity to absorb the excess bandwidth. If existing storage capacity is insufficient to absorb the extra bandwidth, the University Campus Security Unit must notify the installer of the requirement for an additional NVR.

Examples: o 87Mbps = Determined by USYD CSU o 245Mbps = 1 x NVR o 330Mbps = 256Mbps + 74Mbps = 1 x NVR + remaining 74Mbps determined by

USYD CSU o 484Mbps = 256Mbps + 228Mbps = 2 x NVR o 596Mbps = 256Mbps + 256Mbps + 86MBps = 2 x NVRs + remaining 86Mbps

determined by USYD CSU

f) Assignment and configuration of individual cameras to specific NVRs is critical to the efficient use of system-wide storage capacity and must be determined by the Campus Security Unit exclusively. Under no circumstances must installers connect any cameras to NVRs without approval of the monitoring plan.

Note: Due to an existing agreement between Avigilon and the University of Sydney, all Avigilon camera and server licenses must be provided by the Campus Security Unit. Under no circumstances are suppliers/installers to purchase or supply Avigilon licenses of any type.

6.4.4 GENERAL CAMERA SET UP

a) Camera housings must not be mounted on removable ceiling panels. b) Camera focus must be accomplished with iris set to open position. Point of focus adjustment must

be the centre of the required image. Iris must be reset to auto when focus is completed. c) Camera settings must be configured by the installer with the Avigilon Camera Installation Tool

software prior to commissioning as follows:

o General Settings Camera Name

• Building Code, Location, Number (if Multiple) o Example: F10 SE Lift 1 (Building F10 Southeast Lift 1)


Camera Location • Building Name

o Example: New Law School o Image and Display

Exposure: Auto Iris: Auto IR Cut Filter: Auto Flicker Control: 50 Hz Backlight Compensation 50% Maximum Exposure 1/30s (33ms) Priority: Exposure Sharpening 50% White Balance: Auto

o Compression and Image Rate Image Rate: 4.0 ips Image Quality: 6

o All other camera settings must remain configured to default settings. o Cameras must not be connected to any NVRs until configurations are

completed and approved by the Campus Security Unit. 6.4.5 PROGRAMMING AND COMMISSIONING

a) The Installer must supply the Campus Security Unit through the Head Contractor with an unrestricted Excel spreadsheet file containing the following information (example entry provided):

Avigilon Camera Type

Serial Number

Camera Name

Lens Type

IP Address

MAC Address

Image Rate

Quality Level

Bandwidth (Mbps)

1.0MP-HD-DOME-DN

10473628 F10 SE Lift 1

Kowa 3.5-10mm

10.75.39.4

00:18:85:00:AB:6C

4 6 2.4

b) Details of all cameras must be combined on a single spreadsheet segregated by level (basement-

to-top), then lift cameras followed by exterior cameras. c) A JPEG snapshot image of each camera field of view must be included with the spreadsheet.

Image must include timestamp, camera name, and camera location overlays. JPEG resolution must be not less than 800x600. The JPEG file names must mirror the camera names.

6.4.6 SOFT COPY CONFIGURATION SHEETS

The Campus Security Unit Technical Services Manager will provide electronic copies of configuration sheets on request. The current versions can be found in Appendix C.

Configuration Sheet Avigilon Commissioning Sheet

6.4.7 LABELLING

All labelling will be completed by the Electronic Security Maintenance contractor at time of commissioning. 6.4.8 ONSITE TESTING

A date and time must be organised by the Campus Security Unit Technical Services Manager. The testing can only be completed when the devices are connected to the university network.


6.4.9 TESTING PROCEDURES

a) CCTV Sheets and PSU Details sheets must be completed by the installer and given to the Campus Security Unit at the testing stage. These sheets must be scanned and emailed to the CIS Project Manager.

b) Each installed item must be individually tested by an independent and qualified installer under the direction of the Campus Security Unit.

c) Once defects have been rectified another date/time may be organised to test. Once all defects have been confirmed as fixed the installer must send their practical completion certificate to the Campus Security Unit Technical Services Manager. The practical completion certificate must then be signed off and sent back to the security installer.

6.4.10 TESTING/DEFECT SHEETS

Standard Testing Sheets that inform installers of commissioning requirements can be found on the Campus Infrastructure & Services website or below in Appendix C.

Testing Sheet Camera Testing Sheet Testing Sheet Defect Sheet

7 APPROVED SECURITY SUPPLIERS

For smaller security works within projects (under $10,000 in value) the University prefers to use the on-site maintenance provider. Contractors arranging for a small project must contact the Campus Security Unit Technical Services Manager, who will provide the details of the appropriate installer. For major projects the University only deals with companies accredited to install both Gallagher and Avigilon products and that have significant experience with the University’s systems. As of 2013 there are four authorised security companies to complete major projects at the University. These companies can be found on the University website:

a) CHUBB FIRE & SECURITY LTD

Contact: Anthony Valore [email protected] 9581 6479 / 0401 778 099

b) DIEBOLD AUSTRALIA PTY LTD Contact: Timothy Mass [email protected] 9684 3568 / 0417 189 249

c) SECOM TECHNICAL SERVICES (STS) PTY LTD Contact: Robert Jason [email protected] 8893 1227 / 0422 138 701 Roland Zirps [email protected] 0413 035 142

d) SYDNEY NIGHT PATROL (SNP) PTY LTD

Contact: Peter Ellis [email protected] 8762 6690 / 0410 542 973 8 MANUALS

The installer must provide a hard copy and electronic version of ‘As-Built drawings’ produced using AutoCAD format detailing the scope of works installed, layout of equipment, and circuit diagrams (if applicable) to the CSU. A copy in PDF must also be provided.

mailto:[email protected]�





9 WARRANTY

Unless otherwise specified in a University contract, all equipment that is installed to complete a project, including all components within the Access Control and Intruder Detection systems and CCTV systems, must be covered by a 12-month parts and labour warranty.

10 GALLAGHER & AVIGILON CERTIFICATION

A copy of the Gallagher and Avigilon training certificate, and relevant documentation of the technician who performed the commissioning of the new system, must be provided for each installation to the CSU.

11 DOCUMENTATION CHECKLIST

The following Checklist of Documents/Items must be provided to the Campus Security Unit: a) Programming

a. Configuration Sheets b. Installer testing sheets c. As Built Plans – AutoCAD and PDF d. Gallagher and/or Avigilon Commissioning Technician Certificate.

b) Testing and Commissioning a. Door testing sheets – completed by the installer b. PSU Sheets c. Defect Sheets d. Duress and Breakglass Keys (and other miscellaneous keys, etc) e. Practical Completion Certificate

The Campus Security Unit Technical Services Manager must provide electronic copies of the testing sheets on request. Current copies can be found in Appendix C.

12 DOCUMENTATION & RECORDS

Appendix C – Commissioning Forms and Testing Sheets

13 AUTHORISATION OF VARIATIONS

Project managers, consultants, contractors, commissioning agents and facilities maintenance personnel must ensure compliance with these requirements is achieved.

Variations to this standard must only be considered where:

a) the University Standard’s requirement cannot physically or technically be achieved. b) the alternative solution delivers demonstrated and proven superior performance for the same

capital and life cycle cost or better. Consultants and contractors must identify and justify requirements of the standard that do not apply to the project or which need to be varied and these which must be approved by the issuer of this standard. Formal requests for all variations to this Standard must be submitted using the CIS Request Dispensation from Standard Form (CIS-ENG-F001). The issuer of this standard or their delegated authority must review and consider requirements of stakeholders from clients, projects and facilities management before deciding whether to approve variations. Their formal sign-off is required for acceptance of any non-compliances and departures from this standard’s requirements. .


14 QUALITY CONTROL

14.1 DESIGN STANDARD COMPLIANCE

Compliance with requirements of this standard must be checked throughout the design, construction and commissioning phases of projects by:

a) The CIS project consultant b) The issuer of this standard or their delegate

Competent CIS representatives must check compliance with this standard during design reviews and formal site inspections. Any non-compliance with requirements of this standard must be documented in the Non-conformance Report Form, CIS-SYS-F001 and provided to the CIS Project Manager for issue to contractors and their consultants. Project Managers must maintain a register of non-conformances and manage close out of outstanding non-conformances. Contractors and their consultants issued with non conformances must take appropriate corrective or preventive actions. Proposed corrective or preventive actions and close out of non-conformances must first be formally approved by issuer of the standard or their delegate.

14.2 DESIGN STANDARD CERTIFICATION

Contractors and their consultants must certify compliance to the design standard by completing and submitting the CIS Project Design Certification Form, CIS-PROJ-F001 to the CIS Project Manager at each of the following project phases:

a) Design and Documentation b) Tender c) Construction

Notwithstanding CIS’ internal quality control processes, contractors and their consultants must implement their own robust quality assurance and control procedures to ensure compliance with requirements of this standard

15 REFERENCES

a) AS 2201 Intruder Alarm Systems b) AS 3000 Electrical wiring c) Security Industry Act 2007 d) Workplace Surveillance Act 2005 e) Conditions of Supply - Electrical Supply Authority f) Building Code of Australia g) Gallagher Installation Manuals h) Avigilon Installation Manuals i) Other 3rd Party Hardware schedule Installation Manuals including Lockwood, Dorma, Padde

16 ATTACHMENTS

Appendix A – Hardware List

Appendix B – Examples of ACID Installation & Fit off

Appendix C – Commissioning Forms and Testing Sheets


17 DOCUMENT AMENDMENT HISTORY

Revision Description/Amendments Date

000 Interim standard issue 14/12/2012

001 Reformatted to suit CIS Standard format

16/08/2013

CAMPUS INFRASTRUCTURE & SERVICES

18 APPENDIX A - HARDWARE LIST

Brand/Supplier Part Number

Description Notes

Gallagher C300100 Controller 6000 Gallagher C300181 8 Hbus Module Gallagher C300182 8 Reader Module Gallagher C200680 Cardax FT 8-Input Expansion

Interface, board only

Gallagher C200684 Cardax FT I/O Expansion Interface, board only

Gallagher C200688 Cardax FT High Density I/O Interface, board only

Gallagher C200602 Cardax FT Remote Arming Terminal

Charcoal

Gallagher C200105 Cardax FT Dual Cabinet with PSU Gallagher C200611 Cardax FT GBUS I/O Accessory

Cabinet

Gallagher C200620 Cardax FT Dialler Gallagher C300430 T11 Multi Tech Reader Gallagher C197720 Prox Plus Mifare Series Charcoal Gallagher C200602 Gallagher Remote Arming Terminal,

Charcoal

Gallagher C200003 Controller 6000 I/O Mounting Plate Smart Innovations

SMART4405

Press to exit flush button st/steel plate

Large

Smart Innovations

SMART 4410

Press to exit flush button st/steel plate

Small

LSC / ACSS ACWEB2001

Panic Button Secor Dual release ACWEB2001

Smart Innovations

PAB3 Double button end push latching panic button with key

Double press duress

Security merchants / Assa Abloy

10974 Emergency Break Glass Door Release – Green – Double Pole

Lockwood 3570 series (monitored)

Lockwood 3570 electric mortice lock

Single & Double Timber Doors

Lockwood 3580 series (monitored)

Lockwood 3580 electric mortice lock

Single & Double Aluminium Doors and handing of doors required

Lockwood 3572 series Lockwood mechanical mortice locks Single & Double Timber Doors

Lockwood 3582 series Lockwood mechanical mortice lock Single & Double Aluminium Doors

Lockwood 4801/70SC Lockwood 4801/70SC furniture plate

Single & Double Aluminium Doors


Single & Double Aluminium Doors





Description Notes



Lockwood L333 Surface Mounted Barrel Bolt (NOT FLUSH BOLT)

To be installed on top of inactive leaf

Dorma TS73SIL Dorma TS73SIL door closer (up to 1100mm width doors)

All access control doors with electric mortice lock to have a door closer

Dorma TS83SIL Dorma TS83SIL door closer (wider than 1100mm or perimeter doors)

All access control doors with electric mortice lock to have a door closer

ADI SL5 SC ADI SL5 SC lockable bolt ADI SL5 SC lockable bolt installed on fixed leaf and on bottom of door

ADI ADI SL5 rear fixing plate SC

ADI SL5 rear fixing plate SC

Assa Abloy AB8810 Recessed transfer lead – round edge

Assa Abloy AB8811 Recessed transfer lead Fire Rated Assa Abloy AB8389 Recessed transfer lead – squared

edge

Avigilon

1.0-H3-D1

1.0 Megapixel WDR Day/Night H.264 HD 3-9mm Indoor Dome Camera

Avigilon 1.0-H3-D1-IR

1.0 Megapixel WDR Day/Night H.264 HD 3-9mm Indoor Dome Camera with IR

Avigilon

1.0-H3-D2


Avigilon H3-D-SMOKE

Dome Camera Cover with Smoked Bubble

Avigilon 1.0-H3M-DO1

1.0 Megapixel HD Micro Dome Camera

Avigilon 2.0-H3M-DO1

2.0 Megapixel HD Micro Dome Camera

Avigilon 1.0W-H3PTZ-DP20

1.0 Megapixel Day/Night 20x HD PTZ Pendant Dome Camera

Avigilon 2.0W-H3PTZ-DP20

2.0 Megapixel Day/Night 20x HD PTZ Pendant Dome Camera

Avigilon MNT-PEND-WALL

Indoor/Outdoor Pendant Mount Bracket

Avigilon H3PTZ-DP-SMOKE


Avigilon

1.0-H3-D1




Description Notes



Avigilon

1.0-H3-D2


Avigilon H3-D-SMOKE


Avigilon 1.0-H3-DC1

1.0 Megapixel Day/Night H.264 HD 3-9mm In-Ceiling Dome Camera

Avigilon 1.0-H3-DC2


Avigilon H3-DC-SMOKE


Avigilon H3-DC-PNL Metal Ceiling Panel Avigilon

1.0-H3-DO1

1.0 Megapixel WDR Day/Night H.264 HD 3-9mm Outdoor Dome Camera

Avigilon 1.0-H3-DO1-IR

1.0 Megapixel WDR Day/Night H.264 HD 3-9mm Outdoor Dome Camera with IR

Avigilon 1.0-H3-DO2

1.0 Megapixel Day/Night H.264 HD 9-22mm Outdoor Dome Camera

Avigilon H3-DOP-SMOKE


Avigilon

1.0-H3-DO2


Avigilon

1.0-H3-DP1

1.0 Megapixel WDR Day/Night H.264 HD 3-9mm Pendant Dome Camera

Avigilon

1.0-H3-DP2






Avigilon

2.0-H3-D1




Avigilon

2.0-H3-D2


Avigilon H3-D-SMOKE


Avigilon 2.0-H3-DC1


Avigilon 2.0-H3-DC2




Description Notes




2.0-H3-DO1




Avigilon 2.0-H3-DO2

2.0 Megapixel Day/Night H.264 HD 9-22mm Outdoor Dome Camera



Avigilon

2.0-H3-DO2


Avigilon

2.0-H3-DP1


Avigilon

2.0-H3-DP2






Avigilon 3.0W-H3-D1


Avigilon 3.0W-H3-D1-IR


Avigilon 3.0W-H3-D2


Avigilon H3-D-SMOKE


Avigilon 3.0W-H3-DO1


Avigilon 3.0W-H3-DO1-IR


Avigilon Avigilon 3.0W-H3-DO2




Avigilon 3.0W-H3-DC1


Avigilon 3.0W-H3-DC2




Description Notes




5.0-H3-DO2


Avigilon

5.0-H3-DP1


Avigilon

5.0-H3-DP2






Avigilon

5.0-H3-D1




Avigilon

5.0-H3-D2


Avigilon H3-D-SMOKE


Avigilon

5.0-H3-DO1




Avigilon

5.0-H3-DO2




Avigilon 5.0-H3-DC1


Avigilon 5.0-H3-DC2





1.0-H3-B2 1.0 Megapixel Day/Night H.264 HD 3-9mm Camera

Lens 3-9 mm, F1.2, P-Iris

Avigilon 1.0-H3-B3

1.0 Megapixel Day/Night H.264 HD 9-22mm Camera

Lens 9-22 mm, F1.6, P-iris

Avigilon 2.0-H3-B1

2.0 Megapixel Day/Night H.264 HD 4.7-84.6mm Camera

Lens 4.7-84.6 mm, F1.6, auto-Iris



Description Notes

Avigilon 2.0-H3-B2



Avigilon 3.0W-H3-B2

3.0 Megapixel WDR Day/Night H.264 HD 3-9mm Camera


Avigilon 5.0-H3-B2



Avigilon 5.0-H3-B3



Avigilon 1.0W-H3-BO1-IR

1.0 Megapixel WDR 3-9mm HD Bullet Camera























Avigilon 8.0MP-HD-PRO-C

8.0 Megapixel JPEG2000 Color HD Pro Camera

Avigilon 8.0MP-HD-PRO-M

8.0 Megapixel JPEG2000 Monochrome HD Pro Camera

Avigilon 11MP-HD-PRO-C

11 Megapixel JPEG2000 Color HD Pro Camera

Avigilon 11MP-HD-PRO-M

11 Megapixel JPEG2000 Monochrome HD Pro Camera









Pelco EH3512-2 Pelco EH4722-2 17" Standard Enclosure with Fan

and Heater

Pelco EH4718-2 13" Standard Enclosure with Fan and Heater

Pelco EM22 Wall Mount Bracket for Housing Pelco EH2100 In-ceiling Medium Wedge Pelco EH1000 In-ceiling Large Wedge Pelco EH2020 In-ceiling Small Wedge Sentrol E01106134 Reed Recessed 1078C-N 3/4" Tactical Technologies

TPS24-4AC 24VAC 4 Amp power supply



Description Notes

Inovonics S4755 EN1233D Inovonics Pedant Double Button

Inovonics S4795 EN4204R Inovonics 4PT/5Relay receiver

Inovonics S4797 EN4216R Inovonics 16PT/ 6output relay receiver

Inovonics S4748 EN1212 Inovonics Universal Transmitter

Inovonics S4752 EN1223D Inovonics Double Button water resistabt Pendant

Inovonics S4805 EN4232 Inovonics 32 point/ 12 output Receiver (transistor)

Inovonics S4762 EN1233S Inovonics Perndant single button

Inovonics S3215A Echostream 32 Channel Rx with relay outputs

Inovonics S4765 EN1235 Inovonics Beltclip TX single button

Elsema R03105000 Elsema 1 Channel RX Elsema R03105010 Elsema TX Pendant Hand held Elsema Key-2DP Elsema TX Dual Press Key Ring Padde PDE3000 Micro magnet single surface mount

monitored

Padde PDE3002 Mini mag single recessed monitored Padde PDE3006 Eml single door monitored Padde PDE3010 Eml Double door monitored surface

mount

Padde PDE3022 Eml single surface mount monitored Padde PDE3025 Slimline eml double doors Padde PDE5100 Single weather resistant Padde PDE9880

micro magnet mortice monitored

Padde PDE2074 Electric Strike Patch (ES2000) Seadan SSE4000

stainless steel fl

Stainless steel flex 295mm

Seadan SSE4050 Stainless steel flex 590mm Seadan SSE4052 Stainless steel flex 1 metre Seadan SSE4020 Seadan SSE4025 Seadan SSE4024 Seadan SSE4026 Seadan BAT2000 12V 7AH backup battery Jacques VSL-351 Access Intercom Slave Station Aperio (Gallagher Provided)

C867104 AH30 1:8 COMMUNICATION HUB

Aperio (Gallagher Provided)

C867155 Escutcheon 35-45mm



Description Notes

Aperio (Gallagher Provided)

C867156 Escutcheon 46-55mm

**Note:

1. Lenses for cameras to be provided as per project specification. If not included please contact CSU.

2. Use appropriate sun shrouds, etc when specifying external cctv installs even if they are not specified

3. For CCTV installations use appropriate Pelco brackets, etc. 4. For electromagnetic lock installations use appropriate Padde brackets. 5. Refer to Avigilon camera compatibility list if other cameras are to be specified.

CAMPUS INFRASTRUCTURE & SERVICES

19 APPENDIX B - EXAMPLES OF ACID INSTALLATIONS & FIT OFF

Double Glass Door (Card Reader and Non Card Reader)- Entry

Double Glass Door (Card Reader and Non Card Reader)

1. Integrate auto door into Gallagher (internal and external motion sensors). High level IO Options board provided by auto door. Fire trip to be provided if egress by others.

2. Gallagher reader installed between 900mm and 1200mm from ground 3. Breakglass and Exit button

2

1

3


Single Glass Door (Card Reader and Non Card Reader) – Entry

Single Glass Door (Card Reader and Non Card Reader) – Exit

1. Integrate auto door into Gallagher (internal and external motion sensors). High level IO Options board provided by auto door. Fire trip to be provided if egress by others.

2. Breakglass and Exit button 3. Integrate auto door into Gallagher. Options board provided in auto door pelmut. Fire trip to be

provided if egress by others. 4. Gallagher reader installed between 900mm and 1200mm from ground 5. Breakglass and Exit button

2

1

5

4

3


Single Glass Door – Entry


1. Gallagher reader installed between 900mm and 1200mm from ground 2. Lockwood Electric Mortice lock and appropriate furniture. University Bi-lock cylinder. Install at

height 900mm to 1200mm. 3. Dorma Door Closer 4. Barrel bolt or panic bolt visible fix. 5. Transfer hinge mounted at same height of lock. 6. ADI Lockable Drop Bolt. University Bi-lock cylinder. Must be installed with strike plate or ferrel.

1

6

4

3

5

2


Double Frameless Glass Door – Entry

Double Framless Glass Door – Entry

1. Gallagher reader installed between 900mm and 1200mm from ground 2. Lockwood pivot door closer 3. Magnetic lock (Padde – installer to suit door type). Fire trip at Power Supply. 4. Breakglass 5. Exit button

1

4

2

3

5


Double Timber Glass Panelling Door – Entry

Double Timber Glass Panelling Door – Entry

1. Gallagher reader installed between 900mm and 1200mm from ground 2. Lockwood Electric Mortice lock and furniture. University Bi-lock cylinder. Install at height

900mm to 1200mm. 3. Dorma door Closer 4. Barrel bolt or panic bolt visible fix. 5. Transfer hinge mounted at same height of lock. 6. ADILockable Drop Bolt. University Bi-lock cylinder. Must be installed with strike plate or ferrel.

2 1

6

3

5

4


Double Timber Door – Entry

Double Timber Door – Exit

1. Gallagher Prox reader installed between 900mm and 1200mm from ground 2. Lockwood Electric Mortice lock and furniture. Lockwood 3570-4902SC rebate kit. University

Bi-lock cylinder. Install at height 900mm to 1200mm. 3. Dorma door Closer. 4. Barrel bolt or panic bolt visible fix. 5. Transfer hinge mounted at same height of lock. 6. ADI Lockable Drop Bolt. University Bi-lock cylinder. Must be installed with strike plate or ferrel.

2

1

6

4

5

3





900mm to 1200mm. 3. Dorma door closer 4. Transfer hinge mounted at same height of lock.

.

2 1

3

4


Single Timber Door – Entry

Single Timber Door – Exit

1. Gallagher reader installed between 900mm and 1200mm from ground. 2. Lockwood Electric Mortice lock and furniture. University Bi-lock cylinder. Install at height

900mm to 1200mm. 3. Dorma door Closer 4. Transfer hinge at same height of lock (as shown). Mounted with white blank switch plate.

1

3

2

4


Single Wood Panel Door – Entry

Single Wood Panel Door – Exit


900mm to 1200mm. 3. Dorma door Closer 4. Transfer hinge mounted at same height of lock. AB8810 (as shown above) 5. Cabling concealed via wood panelling.

1

3

4

2

5


20 APPENDIX C - COMMISSIONING FORMS & TESTING SHEETS


INPUT 1INPUT 2INPUT 3INPUT 4RELAY 1RELAY 2



INPUT 13INPUT 14INPUT 15INPUT 16RELAY 7RELAY 8INPUT 17INPUT 18INPUT 19INPUT 20INPUT 21INPUT 22INPUT 23INPUT 24

READER 6 LOCATION

University of Sydney- Campus Security Unit

CONTROLLER NAME GALLAGHER CONTROLLER PROJECT COMMISSIONING SHEET

CONTROLLER LOCATION DATE

READER 1 LOCATIONREADER 2 LOCATION

SERIAL NUMBER MAC ADDRESS

READER 3 LOCATION

READER 7 LOCATIONREADER 8 LOCATION

READER 4 LOCATION

READER 5 LOCATION


INPUT 1

INPUT 2

INPUT 3

INPUT 4

INPUT 5

INPUT 6

INPUT 7

INPUT 8

RELAY 1

RELAY 2

RELAY 3

RELAY 4

INPUT 1

INPUT 2

INPUT 3

INPUT 4

INPUT 5

INPUT 6

INPUT 7

INPUT 8

RELAY 1

RELAY 2

RELAY 3

RELAY 4

INPUT/OUTPUT BOARD NUMBER

University of Sydney - Campus Security UnitGALLAGHER EXPANSION PROJECT COMMISSIONING SHEET

INSTALLATION COMPANYINPUT/OUTPUT BOARD NAME

GALLAGHER EXPANSION PROJECT COMMISSIONING SHEET

CONTROLLER NAMEPOWER SUPPLY LOCATIONBOARD TAMPER CONNECTED

INSTALLATION COMPANYINPUT/OUTPUT BOARD NAMEINPUT/OUTPUT BOARD NUMBER



INPUT 1

INPUT 2

INPUT 3

INPUT 4

INPUT 5

INPUT 6

INPUT 7

INPUT 8

INPUT 1

INPUT 2

INPUT 3

INPUT 4

INPUT 5

INPUT 6

INPUT 7

INPUT 8

BOARD TAMPER CONNECTED

CONTROLLER NAMEPOWER SUPPLY LOCATION

INSTALLATION COMPANYINPUT/OUTPUT BOARD NAMEINPUT/OUTPUT BOARD NUMBER

GALLAGHER EXPANSION PROJECT COMMISSIONING SHEET



University of Sydney - Campus Security UnitGALLAGHER EXPANSION PROJECT COMMISSIONING SHEET

INSTALLATION COMPANYINPUT/OUTPUT BOARD NAME


INPUT 1INPUT 2INPUT 3INPUT 4INPUT 5INPUT 6INPUT 7INPUT 8INPUT 9INPUT 10INPUT 11INPUT 12INPUT 13INPUT 14INPUT 15INPUT 16RELAY 1RELAY 2RELAY 3RELAY 4RELAY 5RELAY 6RELAY 7RELAY 8RELAY 9RELAY 10RELAY 11RELAY 12RELAY 13RELAY 14RELAY 15RELAY 16

INPUT/OUTPUT BOARD NAME


University of Sydney Campus Security UnitGALLAGHER HD EXPANSION BOARD PROJECT COMMISSIONING SHEET

INSTALLATION COMPANY


PSU Number

123456789

10

University of Sydney Campus Security UnitPOWER SUPPLY PROJECT COMMISSIONING SHEET

Date of Service

Type/Amp Rating

Building Code/NameLocation in BuildingDB/Circuit Number

Unit (PSU Alarms)

Current Load Mains Output Voltage

Alarm Low Battery Battery Replace DateAlarm PSU Tamper Serial Number

Current Load Battery VoltageAlarm Mains Fail Battery Install Date

Units Supplied from this Power Supply Are:

Comments:


TECHNICIAN NAME DATEINSTALLATION COMPANYBUILDING CODE/NAMELEVEL & ROOM NUMBER LEVEL: ROOM:Door Material Type TIMBER ALUMINUM GLASSDoor Frame Type TIMBER ALUMINUM STEEL

SINGLE DOOR DOUBLE DOOR

TIMBER SLIMLINE L/H SLIMLINE R/H EXTENDED BACKSET MM

SINGLE DOUBLE SLIM SIN SLIM DOUB OTHER Pass Fail NAPass Fail NAPass Fail NAPass Fail NAPass Fail NA

STRIKER PLATE FITTED YES NO NAPass Fail NA

CABLE TRANSFER Pass Fail NADROP BOLT/DOOR SECURE Pass Fail NADOOR WARP TEST Pass FailDOOR FURNITURE Pass FailHANDLE / WALKAWAY TEST Pass Fail NA

Push Button Free Handle Remote Release OtherEgress Function Pass Fail

EXIT SIGN YES NO EMERGENCY EGRESS B/G Pass FailDOOR HAS BEEN CONNECTED TO FIRE TRIP? YES NOIS THE DOOR FAIL SAFE? YES NODOOR CLOSER FITTED YES NO

Pass Fail

SP SP+ T11 Pass FailPass FailPass FailPass FailPass FailPass Fail SP SP+ T11 Pass FailPass FailPass FailPass FailPass FailPass Fail

DOOR HAS BEEN CLASSIFIED AS (INTERNAL) OR (PERIMTER) YES NO YES NO YES NO

University of Sydney Campus Security UnitACID PROJECT COMMISSIONING SHEET

EGRESS METHOD

Door Closer FunctionCARD READERENTRY CARD READER MODEL

Card Reader functionAlarm Zone Un/setAccess GrantedCorrect SymbolsAudible FeedbackLabelling Complete

EXIT CARD READER MODELCard Reader functionAlarm Zone Un/setAccess GrantedCorrect SymbolsAudible FeedbackLabelling Complete

LOCK TYPE - Mortice Lock

Lock FunctionForced DoorDNL / Bond Sense

LOCK TYPE - Mag Lock

DOOR SITE PLANS UPDATEDHARDWARE SITE PLANS UPDATED

DOTLKOR

Striker Plate Engages

ALARM SITE PLANS UPDATEDCOMMENTS / RECOMMENDATIONS:


Defect Number

Comments:

Tamper ControllerWiring PIRBattery Key OverrideDoor CabinetINPUT OUTPUT OTHER

DEVICE DESCRIPTION / NAME

DEFECT / FAULT

Card reader Break GlassRAT Relay

Duress Reed SwitchMag Lock Auto Door

Mortise Lock PSU

Building Code/NameLevelRoom NumberDevice Type (Please Tick)

University of Sydney Campus Security UnitDEFECT PROJECT COMMISSIONING SHEET

Date:


CAMERA TYPE SERIAL NUMBER

CAMERA NAME

LENS TYPE IP ADDRESS MAC ADDRESS IMAGE RATE

QUALITY LEVEL

BANDWIDTH (MBPS)

University of Sydney Campus Security Unit

AVIGILON PROJECT COMMISSIONING SHEET