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Information Technology Services
Audio Visual StandardsVersion 1.0
12 September 2012
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Table of Contents
1. Applicable Standards ________________________________________________________ 11.1 Australian Standards ______________________________________________________ 11.2 Swinburne AV Cable Routing Standards ______________________________________ 11.3 Swinburne AV Cable Fit-off Standards ________________________________________ 21.4 Swinburne AV Cable Loom Standards ________________________________________ 21.5 Swinburne General AV Standards ___________________________________________ 31.6 Swinburne IP Network Standards ____________________________________________ 31.7 Contractor Accreditation ___________________________________________________ 31.8 Installation examples______________________________________________________ 4
2. System Requirements _______________________________________________________ 52.1 General Layout and Design Principles ________________________________________ 52.2 Classroom Teaching Space Layout and Design Principles ________________________ 52.3 Theatre Layout and Design Principles ________________________________________ 62.4 Flat Panel Layout and Design Principles ______________________________________ 7
3. Classroom Teaching Space ___________________________________________________ 83.1 Minimum Equipment Requirements __________________________________________ 83.2 Physical Equipment Layout _________________________________________________ 93.3 Interactive Whiteboard (IWB)Optional ______________________________________ 123.4 Classroom Automated RecordingOptional ___________________________________ 12
4. Lecture Theatre Teaching Space ______________________________________________ 134.1 Minimum Equipment Requirements __________________________________________ 134.2 Physical Equipment Layout _________________________________________________ 15
5. Flat Panel Installations _______________________________________________________ 195.1 Minimum Equipment Requirements __________________________________________ 195.2 Physical Equipment Layout _________________________________________________ 19
6. Swinburne Acoustic Requirements for Teaching Spaces __________________________ 206.1 Classroom Acoustic Levels _________________________________________________ 206.2 Lecture Theatre Acoustic Levels _____________________________________________ 206.3 Lecture Theatre Frequency Response ________________________________________ 216.4 Lecture Theatre Reverberation Decay ________________________________________ 21
7. Lighting Requirements for Teaching Spaces ____________________________________ 22 7.1 Classroom Lighting Levels _________________________________________________ 227.2 Lecture Theatre Lighting Levels _____________________________________________ 22
NOTE:ALL BUILDING PROJECTS REQUIRING AMXEQUIPMENT MUST USE SWINBURNE APPROVEDAMX DEALERS.
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1. Applicable Standards
The following standards shall apply to this document and must be adhered to for any installation work performed:
1.1 Australian Standards
AS/NZS 1680.2.1:2008 (as amended) Interior and workplace lightingSpecific applicationsCirculation
spaces and other general areasAS/NZS 1680.2.3:2008 (as amended) Interior and workplace lightingSpecific applications
Educational and training facilities
1.2 Swinburne AV Cable Routing Standards
1.2.1 Cable Separation. A minimum separation of 300mm shall be maintained between AV signal and
control cables, and mains power cables.
1.2.2 Cable Segregation. Where separation as per item 1.2.1 is not possible, AV cables shall be
segregated in a suitable protective housing compliant with all relevant electrical and data standards.
1.2.3 Cable cross-over. Where mains and signal cables come together, they must be made to cross at
90o.
1.2.4 Cavity walls. Where possible, cables shall be run inside cavity walls.
1.2.5 Masonry walls. Surface duct shall be accepted only where AV cables cannot be run in wall cavities
or embedded trunking. Cable runs shall be located such that they blend in with existing fixtures,
following shadow lines, room corners, whiteboard edges, etc where possible. Unless otherwise
noted, vertical surface duct shall run the full height from floor to ceiling.
1.2.6 Glass walls. No AV cabling shall be run down or across glass walls. Where there are no masonry
or cavity walls which can be utilised for vertical cable runs, it may be possible to run suitably sized,
surface duct on the glass framework. Such surface duct may need to be a non-standard colour, or
may need to be paint colour-matched after the duct has been installed. It is mandatory, in all such
instances, that direct instructions in writing be obtained from Swinburne ITS AV before any work
commences.1.2.7 Grid ceilings. All cable runs in grid ceiling spaces that exceed 3m in length shall be secured off the
ceiling surface using tensioned catenary wire, so that the AV cables maintain separation from the
ceiling surface of 100mm minimum and separation from other ceiling plant equipment of 300mm
minimum. The cables shall be attached to the catenary wire using Velcro straps spaced no further
than 1m apart.
1.2.8 Solid plaster ceilings. All cable runs in solid plaster ceiling spaces shall be secured off the ceiling
surface using Panduit J hooks, spaced at an interval no greater than 1.5m.
1.2.9 Slab coring. Where AV equipment resides in an island bench requiring AV cables to pass from the
bench to wall/ceiling, the AV cables shall pass between the two in a safe and unobtrusive manner.
Subject to approval from Swinburne Facilities & Services Group, the slab beneath the island bench
and a suitable location next to the wall shall be cored to allow AV cables to pass from the bench to
the wall under the slab. Cables under the slab shall be carried in solid PVC pipe with a minimum
internal diameter of 75mm. Elbow joins are to have a minimum internal radius of curvature of 50mm
or greater. All slab cores are to be covered by fixed furniture or cavity walls. All slab cores are to be
fire services rated.
1.2.10 Slab trenching. Where slab coring is deemed inappropriate (e.g. ground floor), the slab shall be
trenched, subject to approval from Swinburne Facilities & Services Group. The trench shall be lined
with an appropriate protective cable trunking for the AV cables, with minimum dimensions of 50mm x
150mm. The trunking shall be free of internal sharp edges, and allow cables to slide freely from end
to end. No bends shall be permitted in the trench/trunkingit must be a straight run from the AV
equipment to the wall access location.
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1.2.11 Floor cable protectors (speed humps). Unless explicitly documented as being required, surface
cable protectors shall not be used. It is mandatory in all such instances, that direct instructions in
writing be obtained from Swinburne ITS AV before any work commences.
1.2.12 Hybrid cables. Unless explicitly documented as being required, hybrid cables (e.g. integrated VGA
+ stereo audio in one sheath) shall not be accepted. Separate cables will be used for each signal in
the installation.
1.2.13 Floor Boxes. Unless explicitly documented as being required, floor boxes for mains and/or signal
cables, either recessed or surface mount, shall not be used. It is mandatory for all such instancesthat direct instructions in writing be obtained from Swinburne ITS AV before any work commences.
1.3 Swinburne AV Cable Fit-off Standards
1.3.1 Cavity walls. Where cables exit the wall into a public space, the cable exit point shall be finished
with a Clipsal Series 2000 blank plate with a 40mm (id) cable access bush (AMPERE VM40+VF40).
The cables shall pass through the bush and be secured inside the cavity, providing strain relief, to
ensure that both the cables and bush plate remain secure when pulled.
1.3.2 Masonry walls. Where cables are to exit the surface duct into a public space a PDL Model 89DM
mounting block shall be used to finish off the duct. The PDL mounting block shall be fitted off using
a Clipsal Series 2000 blank plate with a 40mm (id) cable access bush (AMPERE VM40+VF40). The
cables shall pass through the bush and be secured inside the mounting block, providing strain relief,
to ensure that the cables, mounting block and bush plate remain secure when pulled.
1.3.3 Glass walls. Refer to masonry walls for fit-of details.
1.3.4 Cable management. Unless explicitly noted, all AV cables shall be managed using Velcro straps.
Where plastic cable ties are specified, the tail of the cable tie shall be trimmed short to prevent any
potential scratching or other personal injury to users, technicians, or any other person. It is
advisable to use a suitable cable tie tensioning/cutting tool when using cable ties.
1.3.5 Soldered cables. Where a cable has been extended by soldering, all conductors in the cable shall
be insulated from each other using a suitable diameter heat-shrink tube. The entire join and
associated heat-shrink tubes shall also be covered with a single suitable diameter heat-shrink tube
to assist with rigidity of the join. Such joins shall not be permitted on cables that are likely to flexwith the expected use of the AV system.
1.3.6 Wall plates. Termination of AV cables via wall plates shall not be accepted. It is mandatory for all
such instances that direct instructions in writing be obtained from Swinburne ITS AV before any work
commences.
1.3.7 Building sites. Where a pre-terminated cable is likely to be exposed to paint, plaster and similar
debris from building site works prior to AV fit-off, cable ends are to be protected from debris by
wrapping in plastic and taping protection to cable.
1.4 Swinburne AV Cable Loom Standards
1.4.1 Looms shall be constructed using black Panduit expandable sheath. The sheath shall be tightly
drawn inside-out over the cables to ensure they are a snug fit. The sheath shall be attached
securely to the loom cables using tensioned cable ties at each end.
1.4.2 Where the end of the loom is to provide Laptop functionality, the sheath shall end between 500mm
and 550mm from the Laptop end of the loom cables. There shall be a difference of no more than
50mm total between the exposed Laptop cables in the loom.
1.4.3 Cables inside a loom shall be one contiguous run. Cable joins within a loom (whether socketed or
soldered) shall not be accepted.
1.4.4 Unless explicitly documented as being required, hybrid cables (e.g. integrated VGA + stereo audio in
one sheath) shall not be accepted. Separate cables will be used for each signal in the loom.
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1.5 Swinburne General AV Standards
1.5.1 Unless explicitly noted in writing from Swinburne ITS AV, insulation tape, gaffer tape, and all other
forms of adhesive tape shall not be used as insulation, joining or mounting solution. Such tapes
may only be used to assist with the process of running cables. All such tapes must be removed and
disposed of prior to completion of the AV works.
1.5.2 Where polarised Figure 8 cable is used (e.g. speakers, DC power, etc) the trace shall indicate a
positive signal or supply, with the non-trace being negative or ground.
1.5.3 Unless specified, all rack-mountable equipment in AV racks shall be installed using M6 Pan-head
bolts with washers.
1.5.4 Where rack-mountable equipment is publicly accessible, the equipment shall be mounted using
standard Swinburne ITS AV approved security bolts.
1.5.5 Small items in AV racks shall be physically secured using cable ties. Where space permits, they
shall be secured to a # RU-mounted shelf. Cable ties shall be applied in such a manner as to not
obstruct any AV socket or port, or effect the standard operation of the item.
1.5.6 Where Patch and Paint repairs are requ ired to building surfaces as a direct result of AV works, the
contracted AV company shall be responsible for arranging such works with a suitable provider as
nominated by Swinburne Facilities & Services Group. The contracted company shall notify
Swinburne ITS AV that patch and paint repairs are to take place, who is to carry out the patch and
paint works, and when the patch and paint works are to be completed.
1.5.7 Projector mounting, concrete slab. Attach column using minimum 10mm diameter Dynabolts
1.5.8 Projector mounting, steel or timber beam structures. Attach column vertically (even if structure is not
horizontal) with appropriate steel hardware to hold the projector safely and firmly, without any
structural movement. The structural integrity of the beam must not be diminished. Offset housing to
align the lens with centre-line of the screen. Accurately frame images out to screen borders and set
sharp focus. Digital keystone adjustments are not acceptable.
1.6 Swinburne IP Network Standards
1.6.1 Unless explicitly noted in writing from Swinburne ITS AV, all IP-controlled AV equipment shall be
deployed on the Swinburne University network.1.6.2 Cascading additional network infrastructure (including switchers, wireless access points, etc) off the
Swinburne University network is not acceptable.
1.7 Contractor Accreditation
1.7.1.1 The contracted AV company shall be an authorized AMX dealer with gold or greater rating.
Sub-contracting of AV works to other companies or individuals will not be permitted unless
expressly authorized by Swinburne ITS AV.
1.7.2 A minimum of one onsite supervisor must hold at least one of the following qualifications:
Infocomm CTS-D
1.7.3 System installation must be by trained and experienced staff holding at least one of the
qualifications from item 1.7.2, or at least one of the following qualifications:
Infocomm CTS-I
RMIT Diploma of Audio-Visual Technology
AMX ACE Installer certification
Appropriate trade qualification, as accepted by Swinburne ITS AV
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1.8 Installation examples
The following are samples of acceptable installation techniques.
Example 1 Example 2
Cables should be run inside column (example 1). If there is insufficient space between the ceiling and slab to
do so, it is acceptable to loom the cables through a suitable grommet (example 2).
Example 3 Example 4
Manual screen chain-drives should be selected to suit the room layout. The chain should be biased to the
side of the whiteboard (example 3), not in the centre of the whiteboard (example 4).
Example 5 Example 6
Cables in racks are to be neatly managed using Velcro straps (example 5). Laptop looms must have a
suitable loom holder near the loom (example 6).
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2. System Requirements
2.1 General Layout and Design Principles
2.1.1 Non-standard equipment. The physical characteristics, walls, doors, windows, air conditioning, room
size, etc., of general classrooms and other teaching spaces, can vary greatly, and are often beyond
the control of Swinburne ITS AV. These characteristics can impact AV installations, placing unique
conditions on both equipment type and appropriate layout suited to each teaching spaces.Swinburne ITS AV will advise in writing where non-standard equipment is to be used in such
instances. Unless expressly noted, it is accepted that the standard design and equipment are
suitable for the teaching space.
2.1.2 Direction and orientation references. When using terms to describe left and right, such terms must
always be from the audience viewing/listening point.
2.1.3 Numerical reference of screens and data projectors. When describing screens/data
projectors/microphones using numerical reference #1 is always the left item and #2 is always the
right item, as per left/right conventions noted in item 2.1.2. Where there is equipment in addition to a
standard installation, additional arbitrary numbering is permitted, starting at #3 and increasing.
2.1.4 Proximity to building services. Equipment shall be installed in locations such that the equipment
does not obstruct full use of access hatches, service cupboards and doors, air conditioning filters,
cable duct covers etc. A minimum clearance of 300mm is required between any AV equipment and
fire sensors or evacuation speakers.
2.2 Classroom Teaching Space Layout and Design Principles
2.2.1 Data Projector Screen location. The screen must be located on the presentation wall, offset away
from any large sources of natural light. The offset must allow for simultaneous use of any main
whiteboard. Where the screen has a manual chain-drive, the chain-drive must be located on the
side of the screen which is furthest from the centre of the whiteboard, to allow maximum use of the
whiteboard while the screen is retracted.
2.2.2 Screen geometry. Screen aspect shall be 16:10. Minimum height from floor shall be 1,000mm.Minimum image height shall be 1,480mm. Front row of seating shall be no closer than image height
x 2. Back row of seating shall be no further than image height x 5.3.
2.2.3 Screen quantity. Where the width of seating in the room exceeds the depth of seating in the room
the room shall be fitted with two data projectors to provide a comfortable viewing angle (no greater
than 45ofrom perpendicular). Unless specified, the two projectors shall be controlled separately but
operate in tandem, from the one point of control and show the same image.
2.2.4 Screen obstructions. Where the screen could potentially be damaged by an operable wall, the
screen is to be motorized. The screen must be controlled such that it is always retracted when the
AV system is not in use.
2.2.5 Data projector location. The data projector shall be mounted such that the lens is centred on the
screen(s) or interactive whiteboard. The data projector shall be no closer than 600mm from any air
conditioner outlet.
2.2.6 Speaker location. Speakers shall be mounted at the upper corners of the screen. Where space
allows, the speakers shall be mounted above the screen or interactive whiteboard with the outer
edges of the speakers aligned with the outer edges of the screen or interactive whiteboard. Where
there is insufficient space above the screen, the speakers shall be mounted in line with the top edge
of the screen or interactive whiteboard, no further than 50mm away from the edges of the projection
surface.
2.2.7 Presenters desk location. The presenters desk is to be located along the presentation wall, biased
away from the main entry to the teaching space. The desk return must be flush against the
presentation wall to protect AV cabling between the desk equipment and other AV equipment. The
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desk must be positioned such that the presenter has practical use of any main whiteboards, and not
directly in front of the data projector screen.
2.2.8 General AV equipment location. Unless specified in writing from Swinburne ITS AV, equipment is to
be located in an approved secure rack, mounted underneath the presenters desk, adjacent to the
presentation wall. The rack shall be secured such that it prevents general access to data points, AV-
reserved GPOs, and AV-related cabling.
2.2.9 Keypad location. The keypad is to be located to the presenter desk side of the data projector
screen. It must be located such that it is visible to the presenter when the screen is down.2.2.10 Ambient light. Where external light can cause reflections on whiteboard surfaces or saturate the
presentation wall, the room must be fitted with appropriate window coverings, blinds/curtains, which
provide at least 70% blocking of ambient light.
2.3 Theatre Layout and Design Principles
2.3.1 Data projector quantity. All theatres must have a minimum of two data projectors configured in a
side-by-side manner. Each projector must be controlled individually from a central control location
and be able to show (in a mix-n-match style) any of the standard sources available to the presenter.
The gap between each display area from each data projector must be no greater than 500mm.
2.3.2 Data projector matching. The two data projectors must be of the same make/model with the same
lumen output, mounted at the same throw distance. Any additional data projectors are permitted to
be a specialist make/model, subject to written approval from Swinburne ITS AV.
2.3.3 Data projectors screens. Subject to venue requirements, the venue may be fitted with motorized
screens for data projector use. Where such screens cover the main whiteboard, a screen override
button must be fitted to allow retraction of the screen. The override button must be mounted
immediately below the whiteboard pen tray or bottom of motorized screen in the down position,
which ever is the lower of the two. The override button must be located horizontally central to the
screen which it is controlling.
2.3.4 Proximity to building services. Equipment shall be installed in locations such that it does not obstruct
full use of access hatches, service cupboards and doors, air conditioning filters, cable duct covers
etc.. A minimum clearance of 300mm is required between any AV equipment and fire sensors orevacuation speakers.
2.3.5 Presenters desk location. The presenters desk must be located at the front of the theatre, fixed to
the floor to prevent movement. The following minimum clearances must be observed to allow
servicing of equipment:
Side Clearance
Presenters side 700mm
Audience side 500mm
Left and right ends 500mm
2.3.6 General AV equipment location. Unless specified in writing from Swinburne ITS AV, general AV
equipment must be housed in or on the presentation desk.
2.3.7 Whiteboards. Whiteboards are to be located on the presentation wall, with the lower edge 900mm
AFFL. There is to be no furniture below the whiteboard which may obstruct full use of the
whiteboard surface.
2.3.8 Lighting. Theatre lighting must be integrated with the theatre control system. The presenter must be
able to adjust lighting levels over the seating. The theatre AV control system must automatically
control lighting over the whiteboards, based on the data projector usage. Whiteboard illumination
must be separated into left and right halves, so that one half of the whiteboard can remain
illuminated while the other half is dimmed for data projector usage.
2.3.9 Touch Panel. The touch panel must be mounted securely on the presentation desk at an incline of
45o. The touch panel must be within 550mm reach of the presenters side of the desk.
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2.3.10 Program Audio. A minimum of 5.1 surround sound audio shall be provided for playing media content
for presentations. Control for in-room level shall be provided via the touch panel.
2.3.11 Voice Reinforcement. Unless specified, two speaker arrays of mono audio shall be provided for
voice reinforcement. Control for in-room level shall be provided via the touch panel.
2.4 Flat Panel Layout and Design Principles
2.4.1 Classroom Display. The flat panel is to be mounted in landscape orientation. The bottom of the
image shall be sufficiently high above floor level to ensure the image is visible for a seated audience.Subject to item 2.1.4, the flat panel is to be mounted in a location that provides maximum visibility for
the majority of viewers.
2.4.2 Information Monitor. The flat panel is to be mounted in landscape orientation. The bottom of the
image shall be sufficiently high above floor level to ensure the image is visible above a standing
crowd of people. The panel shall be located in a position that is not subject to harsh environmental
factors. If such a location is unavoidable, a suitable housing is required to protect the flat panel from
the harsh environment.
2.4.3 Interactive Information Monitor. The flat panel is to be mounted in portrait orientation. The top of the
image is to be no higher than 1700mm above floor level. The panel is to be mounted securely so
that it does not move, without restricting the interactive operation of the flat panel.
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3. Classroom Teaching Space
3.1 Minimum Equipment Requirements
3.1.1 Standard Classroom Data Projector
3000 Lumens Light Output
Ultra Short Throw Projection
Aspect Ration- 16:10Resolution - At least 1280 x 800 pixels (native)
Contrast Ratio - 2000:1 or greater
3.1.2 Standard Classroom Projection Screens
Aspect Ratio16:10
Drive methodChain drive (LH or RH venue specific)
Image heightAt least 1480mm
Radius-cut edges
3.1.3 Interactive Whiteboard Projection Screens
2Touch model
Aspect Ratio16:10
Size2,400mm x 1,200mm
3.1.4 Classroom AV System Control
AMX Enova DVX-2100-HD Total Environment Controller (FG1905-04)
AMX UDM-RX02N Multi Format Receiver (FG1402-20)
AMX SP-08-AX-US Novara AXlink keypad, brushed aluminium (FG1311-08-SA)
Motion sensing for automatic standby
Network connected
3.1.5 Standard Classroom Passive Speakers
30 Watt RMS
8 Ohm impedance
White finishHigh quality sound reproduction
Wall-mounts to provide 30otilt down from horizontal
3.1.6 PIR Motion Sensor
Dual element pyroelectric
Coverage up to 15m x 15m @ 90o
Operating voltage 12V DC
Microwave Sensor: Sold state 10.525 GHz
Microwave range selectable High/Low
3.1.7 Computer
DVI-D video out
Monitor to suit video signal type
Stereo audio out (3.5mm socket)
IP connection to Swinburne network
OD must not exceed 430mm (W) x 160mm (H) x 420mm (D), including cable relief / adaptors
3.1.8 Laptop Loom
VGA video
Stereo audio out (3.5mm plug)
IP connection to Swinburne network
3.1.9 DVD
Blu-ray
Component Y Pb/Cb Pr/Cr video out
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Stereo audio out (RCA x2)
Multi Region support
IR controlled
3.1.10 Data Outlets
The presenter workstation shall have three data outlets
o 1 x Computer
o 1 x Laptop
o 1 x Control system3.1.11 Power
The presenter workstation shall have two double GPO outlets.
o 1 x Double outlet 120mm above desk surface for Laptop and accessories
o 1 x Double outlet 300mm AFL for AV rack
The AV rack shall have a 2RU 12-outlet power distribution strip to provide power (up to 10A
continuous) for the following equipment:
o PC (1 x outlet)
o Monitor extension lead (1 x outlet)
o DVD player (1 x outlet)
o AMX control system (1 x outlet)
o USB switcher (1 x outlet)
o USB extender (1 x outlet)
o Automated Capture hardware (3 x outlets)
3.2 Physical Equipment Layout
3.2.1 Data Outlets
The data outlets shall be located on the inside surface of the presenters desk, on the presentation
wall. When the AV rack is locked into place it shall prevent physical access to the data outlets.
3.2.2 Data Projector (ultra-short throw distance) wall mounted
Subject to approval from Swinburne Facilities & Services Group, the data projector shall be locatedon the presentation wall as per Figure 1.
3.2.3 Data Projector (standard throw distance) ceiling mounted
The data projector shall be located on a slab or framing suspension column above the projector at a
distance from the projection screen of 3-4 meters (image size dependent).
The data projector shall be located such that the vertical centre-line of the lens aligns with the
vertical centre-line of the projection screen.
The data projector (top surface when inverted) shall be aligned with the top of the projection screen
unless infrastructure or safety/tampering issues dictate otherwise.
Figure 1 Wall-mounted data projector
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The data projector mounting column shall be aligned with the vertical centre-line of the projection
screen.
Where a concrete slab is accessible, the data projector mounting column shall be attached to
underside using 10mm x 75 mm Dynabolts.Where steel beam structures are accessible (no concrete slab), the data projector mounting column
shall be attached vertically (even if structure is not horizontal) with appropriate steel hardware to
hold the projector safely and firmly, without any structural movement.The data projector housing shall be offset on the column to align the lens with the centre-line of thescreen.The data projector housing shall be attached securely to the mounting column with Alan head bolts
plus stainless steel allthread with sheernuts (supplied with column and housing)
The data projector shall be suspended inverted on an adjustable three or four arm spider (supplied
with the security housing),.
The data projector image shall be accurately framed within the projection screen borders and shall
be sharply focused once framed.
3.2.4 AV Equipment Rack
The AV equipment rack shall be installed under the return of the presenters desk using Swinburne
ITS AV approved security hardware.The AV equipment rack shall be secured to the desk or wall to prevent unauthorized access to the
rack equipment, cabling, network and power outlets.All equipment and panels which are accessible to the user shall be secured using the Swinburne ITS
AV approved security lock.Equipment shall be installed in the rack as illustrated in the relevant schematic documentation.
3.2.5 Interactive Whiteboard
The interactive whiteboard shall be located on the presentation wall in accordance with the
manufacturersinstallation instructions.The interactive whiteboard shall be positioned such that there is no obstructing furniture (including
the return on the presenters desk) immediately below the interactive whiteboard.The interactive whiteboard shall be positioned on the presentation wall as per Figure 1.
3.2.6 Projection Screen
The projection screen shall be mounted on the wall or ceiling using screen specific
hardware/brackets, in accordance with the manufacturers installation instructions, aligned with the
centre-line of the data projector mounting column and either 25-50mm below the ceiling at the front
of the room or aligned with the top of the projector (whichever is appropriate for the venue).The projection screen shall be positioned such that the bottom bar is at least 1,000mm AFFL when
fully extended (exceptions may apply where a very low ceiling is encountered or an oversized screen
is specified).The projection screen shall be located away from external windows and offset to allow maximum
whiteboard exposure when the screen is down, while not compromising viewing angles for any
audience members.3.2.7 AV System Control
The AV system control unit shall be located in a 19 inch equipment rack secured under the
presentation desk return section using the authorized Swinburne ITS AV security hardware.
The AV system controller must have at least 1RU space above for ventilation.
All unused RU spaces shall be covered with vented panels. The lowest 2RU spaces must be vented
using a separate 2RU vented panel.
Vented covers shall be installed on the User side to prevent tampering with the equipment.
The AV system controller shall be powered from a power strip in the AV rack.
The AV system controller button panel shall be recessed (cavity wall), or surface mounted on a
standard PDL89DM mounting block (solid masonry wall), at a height of 1500mm AFFL at the side of
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the whiteboard furthest from the projection screen, outboard from any AV cable duct (if used), unless
otherwise specified by SUT on site.
The data projector controller shall be programmed by the SUT AMX programmer for the specified
brand and model of projector.
3.2.8 Passive Speakers
The speakers should be mounted above each end of the screen, angled down slightly.
Where ceiling structures prevent this, speakers are to be mounted on the sides of the whiteboard,
aligned with the top edge.3.2.9 PIR Motion Sensor
The PIR motion sensor shall be installed near a front corner of the room in such orientation as to
detect movement in and around the presentation area.
The PIR Sensitivity trim shall be initially set to 50%, then fine tuned for best motion pickup.
3.2.10 DVD Location
The DVD player shall be located on a 1RU cantilever tray in the AV rack, below the PC.
3.2.11 Cable and Cable Management
Where possible, signal and control cables shall be high quality pre-moulded Dueltek and/or Lindy
brands.
It is permitted to solder the serial cross-over cable at the data projector to suit the equipment
specifications.
Signal, control and power supply cables shall be neatly installed, using Velcro strap and catenary
wires where appropriate.
Signal, control and power supply cable installation shall comply with all industry codes of practice,
including but not limited to signal and power segregation etc.
Cables shall be of correct gender. Gender changers will not be accepted.
Tails of 500mm shall be left at each end of installed cables connected to equipment without the use
of gender changers or wall plate terminations.
All signal and control cables shall be labelled as per the supplied cable schedule.
All vertical run cables shall be run according to Section 1 of this document.
All horizontally run cables shall be kept separate from Moduline ducted cables, looped and cable tiedaway from physical interference or damage.
The laptop loom umbilical shall be bundled in braid sleeve or equivalent cable management cover
sheath (ref. 1.4 above).
All other exposed cables shall be neatly bundled to minimize risk of hazards and/or damage.
The laptop loom umbilical shall be a minimum of 1500mm long from the cable exit point.
Strain relief shall be employed where cables exit the wall or duct to prevent possible cable damage
or duct cover lifting.
Joined connectors shall be cable tied together to prevent accidental separation.
Cables from the surface of the presenters workstation to the underside, shall pass through a suitable
sized cable grommet. Cabling looped around the desk edge is not acceptable.
All cable slack shall be either pulled back or neatly bundled and Velcro strapped away from damage
or tampering.
Unused installed cabled (e.g. CV+Audio for DVD, PC VGA+Audio) shall be coiled neatly above the
vertical cable run (in the ceiling space).
Previously installed loose AV cabling shall be removed, bundled and returned to Swinburne ITS AV.
Previously installed fixed AV cabling, if not easily removable, shall be left in place but cut off to
prevent re-use.
Where AXlink cable runs total 15m or less in length, violet-sheathed multi-strand Cat6 should be
used. Where AXlink cable runs exceed 15m in length, consultation with Swinburne ITS AV is
required to determine the best solution for AXlink connectivity.
3.2.12 Power and Network
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4. Lecture Theatre Teaching Space
4.1 Minimum Equipment Requirements
4.1.1 Lecture Theatre Desk
The theatre desk must be built according to Swinburne ITS AV standard theatre desk design.
The desk shall have a minimum of three cavities, each capable of housing a self-standing 12RU (H)
x 500mm (D) equipment rack.4.1.2 Data Projectors (EB-G5750WUN)
Resolution - 1920 x 1200 native (16:10)
Contrast Ratio - 1,500:1 or higher.
Minimum connections - 1 x HDMI, 1 x VGA and 1 x RS232C.
4.1.3 Data Projector Mounting Hardware (Ultralift)
Standard SUT data projector security housing and suspension column
Suspend projector inverted on an adjustable three or four arm spider (supplied with the security
housing).
4.1.4 Projection Screens
16:10 Aspect Ratio
3m wide (min)
Electric motor drive
Radius-cut edges
4.1.5 Projection Screen Override Buttons
Clipsal Classic C2000 plate
Clipsal 30BP bell-press momentary pushbutton
PDL Model 89DM mounting block
4.1.6 AV Racks
12RU high x 500mm deep (qty 2)
4.1.7 AV System Control
AMX NetLinx NI-3100 master (FG2105-05)AMX MXD-1000-L touch panel (FG5968-13) with AMX PS-POE-AF-TC PoE injector (FG423-83)
AMX NXA-PDU-1508-8 power distribution unit (FG673-02)
4.1.8 PIR Motion Sensor
Dual element pyroelectric
Coverage up to 15m x 15m @ 90o
Operating voltage 12V DC
Microwave Sensor: Sold state 10.525 GHz
Microwave range selectable High/Low
Dynalite DUS704C/DUS704W acceptable alternative
4.1.9 Audio Processing (BiAmp Nexia CS)
10 input 6 output Digital Signal Processor
Unique matrix sub-mixes for each output
Flexible equalization per output
Individual phantom power control per input
Feedback suppression
RS232 control
4.1.10 Video Processing
6 input 4 output matrix switching, with audio
VGA & Composite signal types
RS232 control
Composite to VGA up-scaling
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Audio capture of lapel, program audio, and in-room
4.1.19 Integrated Lighting
Dynalite dimmers and control to suit room fixtures
Dynalite DPN308N programming socket
Dynalite DPN941 keypad at each main entrance
Data line from dimmers to AV System Controller in lecture theatre desk
4.1.20 Power Outlets
Dual outlet GPO x 6 inside deskDual outlet GPO x 1 at each end of desk (total x 2) mounted on the kick at floor level
Dual outlet GPO x 1 on touch panel wedge, presenters side
Dual outlet GPO x 1 at each data projector location
Dual outlet GPO x 1 at centre-rear of venue
4.1.21 Data Outlets
1 x Computer
1 x Laptop
1 x IP phone
1 x Master control system
1 x Touch panel
1 x Automated recording
4.2 Physical Equipment Layout
4.2.1 Lecture Theatre Desk
The Lecture Theatre furniture layout incorporates a presentation desk to house AV equipment.
The desk must be built in accordance to the Swinburne ITS AV Standard Lecture Theatre Desk
document.
4.2.2 Data Projectors
Projector lenses centred on centreline of screens
Height relationship between projector and screen will avoid the need for electronic keystoneadjustments
Screen to projector distance such that the image fills the screen with the zoom adjustment set at
approximate centre of its travel, allows for practical considerations of physical environment
constraints
Projectors mounted such that they do not impede sight lines for any audience member, particularly
back row in tiered seating.
4.2.3 Projection Screens
Mounted on wooden batten to ensure that no part of the screen comes in contact with the whiteboard
surface or framing.
4.2.4 Projection Screen Override Buttons
Located immediately beneath whiteboard pen tray. Each override buttons shall be located on the
centreline of screen.
4.2.5 AV Racks
A separate 12RU rack shall be installed into the two outer cavities of the lecture theatre desk. One
rack will be nominated to be the User rack, and the other nominated to be the Equipment rack.
Both racks shall be secured to the floor of the lecture theatre desk at the rear of the rack
4.2.6 AMX System Controller
The AMX master shall be mounted in the Equipment rack on the presenters side of the rack.
A network cable shall be installed from the AMX master to one of the fixed network points inside the
lecture theatre desk.
The AMX touch panel shall be located in the sloped surface of the lecture theatre desk.
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The AMX touch panel AV interface box shall be located inside the sloped section of the lecture
theatre desk.
A network cable shall be installed from the AMX touch panel to the AMX touch panel AV interface
box. A second network cable shall be installed from the AMX touch panel AV interface box to one of
the fixed network points inside the lecture theatre desk.
The AVT-PC2 power controller shall be screwed to the vertical inside surface of the lecture theatre
desk centre cavity. It shall be located immediately above the GPOs with the AVT-PC2 outlets facing
the audience, aligned with the edge of the vertical panel.4.2.7 PIR Motion Sensor
The PIR motion sensor shall be installed such that it covers the presentation area and main
entrances. Multiple PIRs may be required to obtain sufficient coverage.
4.2.8 Audio Processing
The audio DSP shall be mounted in the Equipment rack.
4.2.9 Video Processing
The video matrix switcher shall be located in the equipment rack.
The Composite-to-VGA scaler shall be located in or near the Equipment rack.
The VGA-to-VGA scaler shall be located near the Automated Capture hardware.
4.2.10 Program Audio
The program audio amplifier shall be located in the Equipment rack.
The subwoofer shall be located in the centre cavity of the lecture theatre desk.
The five surround speakers shall be mounted securely to the venue in appropriate locations. Care
must be taken to ensure the speakers (especially the front left/centre/right) do not interfere with
projected images or PIR motion detection.
4.2.11 Voice Reinforcement
A pull-out tray for radio microphones shall be installed in the User rack. A maximum of 3RU is
allowed.
The radio microphone receivers shall be installed in the Equipment rack in the top RU.
The theatre shall have mono voice reinforcement via two 100v speaker arrays.
The speaker arrays shall be located at a depth of approximately one third and two thirds of the totaltheatre depth.
The speaker in each array must be wired in-phase with adjacent array speakers.
The voice reinforcement amplifier shall be located in the Equipment rack.
The induction loop driver shall be located in the Equipment rack.
4.2.12 Computer
The computer shall be located in the top 4RU of the User rack. The computer shall be secured by
Swinburne ITS to prevent unauthorized removal. The monitor, keyboard & mouse shall be placed on
the working surface of the lecture theatre desk, at one end of the desk. All cables shall pass through
the same desk grommet as the IP phone and laptop loom.
A network cable shall be installed from the computer to one of the fixed network points inside the
lecture theatre desk.
4.2.13 Laptop Loom
A minimum length of 1000mm must be available on the working surface of the lecture theatre desk.
The laptop loom shall pass through the same desk grommet as the computer monitor and IP phone
cables.
The network cable inside the laptop loom shall be patched into one of the fixed network points inside
the lecture theatre desk.
4.2.14 Document Camera
The document camera shall be placed on the working surface of the lecture theatre desk, at the
opposite end to the computer monitor. Cabling for the document camera shall pass though a
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dedicated desk grommet on the document camera side of the working surface of the lecture theatre
desk.
4.2.15 DVD
The DVD shall be mounted securely in the User rack such that it does not move when
loading/unloading media from the DVD player.
The front faces of the DVD (with DVD tray closed) must sit flush or slightly recessed (20mm max) of
the outside edge of the user rack.
The DVD shall be controlled by the AV controller via IR. The IR transmitter shall be fixed over theDVD player IR receiver with the supplied 1 square inch adhesive pad.
4.2.16 IP Phone
The IP phone shall be located on the working surface of the lecture theatre desk, next to the
computer monitor.
A network cable shall be installed from the IP phone to one of the fixed network points inside the
lecture theatre desk. Cabling for the IP phone shall pass through the same desk grommet as the
computer monitor and laptop loom.
4.2.17 Automated Capture
Capture hardware shall be installed inside the User Equipment rack, occupying the lowest 1RU.
A vented cover shall be installed to prevent unauthorized access to the automated capture hardware.
A network cable shall be installed from the capture hardware to one of the fixed network points inside
the lecture theatre desk.
An in-room microphone shall be installed on the sloped surface of the lecture theatre desk.
An On Air recording light shall be installed on the top of the lecture theatre desk. The light must be
located so that it is clearly visible to both the presenter and audience.
Where a video camera is required it shall be installed towards the rear of the venue in the location as
marked by Swinburne ITS staff.
4.2.18 Integrated Lighting
The Dynalite lighting dimmers shall be enclosed in a suitable housing and located as per Swinburne
Facilities and Services Group guidance.
A Dynalite programming point shall be installed next to the dimmer enclosure to allow programmingof dimmers without the need to open the dimmer enclosure.
Each main entrance shall have a Swinburne ITS AV approved 4 button DyNet compatible keypad
located within 2m of the entrance. The keypad shall be located at 1,500mm AFFL.
The lighting system shall have a separate data run from the Dynalite dimmers to the AMX master for
integrated control of lighting. This separate data run must notprovide DyNet bus power to the AMX
master. For this data run, bus power should be disconnected at the dimmer end, with only D+/D-
/Gnd connected for control purposes.
Halogen fixtures over the whiteboard/projection screen area shall be separated into two halves, each
on separate dimmable circuits.
Surface-mounted Single outlet GPOs shall be installed for the ProLite profile lights. The outlets shall
be installed at locations as specified by Swinburne ITS staff.
The front row of fluorescent lighting must be on a separate channel to the general seating fluorescent
control. The remaining rows of fluorescent lighting shall be balanced over several dimmer circuits to
spread circuit loading appropriately.
4.2.19 Power Outlets
Six Dual GPOs shall be installed on the inside of the lecture theatre desk centre cavity on the
designated side. All outlets shall be aligned with the service side (audience) edge of the vertical
surface. The first outlet shall be installed AFFL of the lecture theatre desk cavity. All remaining
outlets shall be installed in a column above the first outlet. A minimum of clearance of 200mm must
be maintained above the top-most outlet.
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5. Flat Panel Installations
5.1 Minimum Equipment Requirements
5.1.1 Flat Panel Display (Mitsubishi LDT range)
Commercial-grade LCD display
1920 x 1080 resolution (16:9 aspect)
HDMI and XGA inputStereo audio input
RS232-C controlled
Discrete volume control, power control and input selection via RS232
5.1.2 Wall-based Mounting Hardware
Telehook TH-3070-UT
5.1.3 Ceiling-based Mounting Hardware
Telehook TH-3070-CTW
5.1.4 Speakers - optional
Manufacturers optional extra to suit specified flat panel.
5.2 Physical Equipment Layout
5.2.1 Classroom Teaching Space
The flat panel is to be mounted in landscape orientation.
Minimum height from floor level to the bottom of the image is to be 1150mm.
5.2.2 Information Monitor
The flat panel is to be mounted in landscape orientation.
Minimum height from floor level to the bottom of the image is to be 2100mm.
5.2.3 Interactive Information Monitor
The flat panel is to be mounted in the portrait orientation.
Maximum height from floor level to the top of the image is to be 1650mm.
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When the system is powered up from the standby state to the running state, a default level is
recalled. A 0dBU source shall produce a room level of 72dBC +/- 3dB.
6.3 Lecture Theatre Frequency Response
Pink noise should be used to test the frequency response of the lecture theatre and DSP configuration. With
the program audio set to maximum, frequency response measurements should be taken in three locations
within the seating area and the average of the three measurements combined to produce an aggregate
frequency response. The measuring locations for each venue are to be determined by Swinburne ITS AVand documented on a seating plan document to ensure tests can be repeated at a later date. Equalization
adjustments to the relevant DSP output(s) should be adjusted until the desired frequency response is
achieved. A transfer function of the acoustic response is measured using the following parameters: C-
weighting, 1 second average, 1/6 octave smoothing, 40% coherence threshold.
6.3.1 Program Audio frequency response
For frequencies between 90Hz and 9kHz, the amplitude deviation from the average should be no
greater than 3dB.
Frequency response outside the above range should roll off.
6.3.2 Voice Reinforcement frequency response
For frequencies between 90Hz and 9kHz, the amplitude deviation from the average should be no
greater than 3dB.
Frequency response outside the above range should roll off.
6.3.3 Reverberation decay time
Measurements should be taken
An RT60 value of no more than 150mSec, +/- 50mSec is acceptable.
6.4 Lecture Theatre Reverberation Decay
Measurements should be taken at five seating locations (mid left, mid right, mid centre, rear left, rear right).
The measurements should then be averaged to obtain the average RT60 value for the theatre.
6.4.1 Reverberation decay time
An RT60 value of no more than 150mSec, +/- 50mSec is acceptable.
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7. Lighting Requirements for Teaching Spaces
To ensure legibility of presentation content and sufficient illumination for note taking, the following is a outline to
general lighting requirements. Unless specified by Swinburne ITS AV, the following requirements are considered
acceptable for standard teaching spaces.
Ambient light is the level of light reflected off the centre of the projection screen, with the projector lamp turned off.
Projected light is the level of light reflected off the centre of the projection screen, with the projector lamp turned onand projecting a white 6500k image.
7.1 Classroom Lighting Levels
7.1.1 Presentation area
The ratio of projected:ambient light shall be a minimum of 10:1 at the projection screen.
7.1.2 Seating area
A minimum level of 150 lux over the seating area is acceptable when note-taking is required.
7.2 Lecture Theatre Lighting Levels
7.2.1 Presentation area
The ratio of projected:ambient light shall be a minimum of 20:1 at the projection screen.
7.2.2 Seating area
A minimum level of 150 lux over the seating area is acceptable when note-taking is required.
7.2.3 Camera recording
A minimum level of 300 lux at the presentation area is acceptable when camera-based automated
recording is taking place.
Lighting for camera-based recording shall be configured to minimise spill onto the presentation
screens. This shall be achieved primarily by suitable placement of luminaries, without blocking
audience sight-lines or disruption of projected images. Further beam-shaping may be required to
prevent spill onto the presentation screens.