part j6 energy efficiency provisions for commercial building lighting

NCC 2019

Energy EfficiencyCommercial Buildings

Lighting for various spaces- Case Study 6

Supporting Document

Case Studies: Part J6 Energy Efficiency Provisions for Commercial Building Lighting

© 2018 Commonwealth of Australia and States and Territories of Australia

The information in this document is intended to be used as guidance material only, and is in no way a substitute for the NCC and related State

and Territory legislation. The General Manager of the Australian Building Codes Board (ABCB) Office, as agent for the Commonwealth of

Australia and States and Territories of Australia, does not accept any liability howsoever arising from or connected to the use or reliance on any

information in this publication to the maximum extent permitted by law. The information in this publication is provided on the basis that all persons

accessing the information undertake responsibility for assessing the relevance and accuracy of the information to their particular circumstances.

Australian Building Codes Board Page 1

This document provides case studies of numerous lighting designs to illustrate the key

changes proposed to the energy efficiency provisions for commercial building lighting in

the National Construction Code (NCC) 2019 Volume One.

Case Study Summary

Type of Compliance Solution: Deemed-to-Satisfy (DTS) Solutions

NCC References: Part J6 of both NCC 2016 Volume One and

NCC 2019 Volume One Public Comment Draft

Acknowledgements

The ABCB acknowledges the assistance of:

1. the building owners for allowing their buildings to be used for the purposes of these

case studies, and for providing the necessary information for their completion; and

2. the Lighting Council of Australia, the Illuminating Engineering Society of Australia

and the International Association of Lighting Designers for publicising the ABCB’s

request for case studies and for arranging peer reviewing of the content of the case

studies.

Background

Under the Council of Australian Governments (COAG) 2015 National Energy Productivity

Plan (NEPP), and with endorsement by the Building Ministers’ Forum, the Australian

Building Codes Board (ABCB) was requested to update the energy efficiency provisions in

NCC 2019.

The NEPP is a COAG Energy Council agreed package of measures, which aims to

improve Australia’s energy productivity by 40 per cent by 2030. Measure 31 of the NEPP

forecasts strong productivity and emissions reduction benefits from revising the NCC’s

energy efficiency provisions, particularly in relation to commercial buildings.



On this basis, the ABCB was instructed to focus on increasing the stringency of the energy

efficiency provisions for commercial buildings. The proposed changes to NCC 2019,

which are currently available for public comment, cover each element of commercial

buildings, including the façade, air-conditioning and lighting (the subject of this document).

Introduction

These case studies are part of a series produced by the ABCB to support the Public

Comment Draft of the 2019 National Construction Code (NCC). The purpose of the case

studies is to help illustrate the impact of the proposed changes to Section J of Volume One

of the NCC. It shows what changes, if any, a building designed to meet the 2016 NCC

provisions of Section J would need to make in order to comply with those of NCC 2019.

It should be noted that the intent of these case studies is not to show that 2016 compliant

designs are can easily pass the proposed 2019 provisions. As stringency increases it is

expected that design approaches will need to change. The intent of the case studies is,

therefore, to identify if the proposed increase in stringency has established the appropriate

balance between safety, amenity and energy efficiency, as well as identifying instances

where better guidance on the use of the provisions is needed.

Note that any opinions on the impact of the proposed changes to Section J are expressed

by the case study author. It should not be regarded as those of the ABCB nor an indication

that the NCC will necessarily be changed to reflect these opinions.

It should be further noted that part of the proposed changes to Section J in NCC 2019

include changes in the calculation methodologies used to determine if a building element

is compliant. This can make direct comparison between the 2016 and 2019 versions of a

building solution difficult. Instances where this issue arises are highlighted in the text.

Key Findings

A number of common issues have been identified in the case studies. Below is the

ABCB’s response to some of these issues.

1. What IPD should be applied when the illumination needs of a space are above

the minimums suggested by AS/NZS 1680.1?

Table 3.1 of Australian/New Zealand Standard (AS/NZS) 1680.1-2006 (Interior and

Workplace Lighting) provides guidance on the minimum illuminance levels that should be

achieved on the horizontal plan of certain spaces, based on the sort of tasks commonly

undertaken. Part J6, Table J6.2a lists the maximum Illumination Power Density (IPD)



requirements in Watts of lighting per square metre (W/m2) for interior spaces,

corresponding with those listed in AS/NZS1680.1. A corresponding table in Part J6 of The

Guide to the NCC provides the AS/NZS1680.1 recommended illuminance for each space

listed in Table J6.2a and the associated efficacy (lm/W). The IPD levels in the NCC are

then based on research into the cost-effective and practical level at which the

AS/NZS 1680.1 illuminance levels can be reasonably provided. Some of the case studies

presented here include scenarios where the minimum illuminance levels suggested by

AS/NZS 1680.1 are inappropriate and the IPD assigned to the space is therefore too low.

In these cases there is a valid response, via a Performance Solution, to increase the IPD

above what is indicated in Table J6.2a.

The first step is to establish what the appropriate illuminance target should be.

AS/NZS 1680.1 outlines scenarios where it is appropriate to increase lighting levels above

what it recommends as the minimum level. Section 3.11.2 lists four specific circumstances

where increasing illuminance levels are justified, but notes that this is not an exhaustive

list:

providing for the needs of the aged;

in rooms with low surface reflectance;

where luminaires with low cut off angles are required; and,

when highly detailed, rapid or focused tasks need to be performed,

Once the target illumination is agreed as appropriate, the Notes to Table J6.2a can then

be used to determine the appropriate IPD that would apply for that space, and the design

should proceed on that basis.

Note, the above is only a guide to developing a Performance Solution. The applicable

building approval authority is ultimately responsible for determining the adequacy of a

Performance Solution.

2. Better guidance on Lighting Performance Solutions is needed

The case studies presented in this document all use a DTS approach to producing a

compliant lighting design. This is considered a relatively common approach within the

industry to producing compliant lighting designs. However, as noted above, the NCC also

allows designers to use Performance Solutions to demonstrate compliance.

As well as the example given above, where lighting IPD are increased in order to provide

higher lighting levels, a Performance Solution could also involve exceeding the maximum

IPD levels for lighting where offset by energy saved in other building services, such as the

air-conditioning. This would require demonstrating that, overall, the building is using

energy efficiently. That is, under a Performance Solution it is possible for energy saved by



the services to be added to the allowance for lighting (subject to satisfying the building

approval authority).

Designers should treat each case on its merits when developing a Performance Solution

for lighting. The reasons should be clearly documented and if appropriate discussed with

the building certifier who will ultimately accept or reject the reasons for higher light levels.

General guidance on the development of Performance Solutions is available on the ABCB

website. The ABCB will also consider updating the text of the Guide to the NCC to clarify

this issue, as well as developing other education material on how Performance Solutions

for lighting can be used.

3. The proposed changes to the track lighting provisions (J6.2(b)(iii)) appear too

stringent

The case studies indicate that the new calculation method for track lighting excessively

penalises the rest of the design where large lengths of track are used with only a few lights

on them. The intent of the proposed changes is to guard against the potential for lighting to

be easily added to a track lighting system post certification. The results of the case studies

indicate, however, that basing the power consumption of the track on its circuit breaker

unfairly penalises track lighting, the use of which is often the most appropriate form of

lighting when there is a need for flexibility in certain space configurations.

The ABCB will consider this issue and welcomes industry input on how best to balance the

needs of this clause.

4. The proposed maximum Illumination Power Density (IPD) for restaurants may

be too stringent

Three of the case studies in this document looked at the impact of the proposed provisions

on restaurants and seem to indicate that certain lighting designs may struggle to achieve

compliance, particularly where there is a need for higher task lighting. The ABCB will

review the maximum IPDs in these spaces and consider whether they could be more

closely aligned to those of retail spaces.

Table of Contents

Case Study A Office & Conference Room 1

Case Study B Office/ Retail (Bank) 15

Case Study C Office 27

Case Study D Entry Lobby 31

Case Study E Storage 37

Case Study F Laboratory 44

Case Study G Retail/ Circulation Space 49

Case Study H Restaurant 1 55

Case Study I Restaurant 2 64

Case Study J Restaurant 3 70

Case Study K Restaurant 4 74

NCC Part J6 Revisions

Case Study A -Office & Conference Room23-01-2018

Contents

-space 1 description and report

-space 2 description and report

-Light fixtures details

-Lighting Layout for NCC2016 compliant design

-Lighting Layout for NCC2019 compliant design

Level 1

173 Swan Street

Richmond, VIC

3121 Australia

+61 3 9034 5234

SCHULERSHOOK.COM MELBOURNE CHICAGO MINNEAPOLIS DALLAS SAN FRANCISCO BAY

Page 1

NCC Part J6 Revisions Case Study A - Office & Conference Room

ABOUT THE SPACE

Building name (if

applicable) and address173 Swan Street , Richmond VIC 3121

Lighting consultants Schuler Shook Pty, Ltd

Building classification Class 5

Space type Office – Artificially lit to an ambient level of 200lx or more

Completion date Feb-Mar 2018. Currently fit out stage

Space Size 66.45 m2

Proposed or achieved

environmental certifications

and status

none

Page 2

Briefly describe the following for the space that currently complies with Part J6 of NCC 2016;

- Client requirements: office lighting installation for tenancy, preference for suspended

system to detract attention to the somewhat aesthetically unpleasant existing ceiling. Need to achieve illuminance and glare limitations requirements per AS 1680, but with a visually attractive look, as opposed to a traditional “corporate” look. Request to allow for a certain flexibility in workstations location, however with a general idea of a central longitudinal circulation area. The office is a Theatre design and lighting design office, many pictures of completed projects will be displayed on the wall therefore there is the need to highlight the walls. The whole installation will be on a programmable dimmer system capable of scene settings and daylight harvesting (through the use of sensors, dim or switch off artificial lights when sufficient daylight is available). Possibility of a lounge area with preference for a pendant soft light and creation of cosy atmosphere

- Installed wattage: 534.2W

- Area in square metres: 66.45 m2

- Illumination Power Density achieved as per NCC 2016 requirements (including

adjustments for controls or Room Aspect Ratio): 8.04 W/m2

- Luminaire number and type: see attachment

- Luminaire technical details (including where appropriate): see attachment

Power/output (lumens per watt)

Colour temperature

Beam angle

Beam direction

Beam distribution

- Controls Details (if any): all the fixtures are DALI dimmable, the system includes

multifunction detectors (movement+lighting levels detectors) and astronomical

clock.

Page 3

Describe the overall planned or achieved NCC 2016 compliance method for the building and its components.

Describe the changes to the same space that would be required in order to comply with NCC 2019 (assume client requirements are unchanged)

No changes

Provide estimates of any changes in construction costs between the 2016 version and the 2019 version

The illumination power density allowed by the NCC2019, including applicable correction factors, is 11.583W/m2. The total power allowed is 769.7W, therefore the original design is within the allowance.


adjustments for Controls, Room Aspect Ratio, Colour Rendition or Colour

Temperature): 8.04 W/m2

use of the DTS Provisions

Page 4

Provide a written summary of any other significant variations or points of interest generated by the analysis

Attachments: 1- Light fixtures details2- Lighting Layout for NCC2016 compliant design3- Lighting Layout for NCC 2019 compliant design.

Please note, there is no variation in design between NCC 2016 compliant version and NCC2019 compliant version.

In the proposed J6 2019, the use of sensor and dimming system is of key importance for obtaining a power density allowance that enables a well devised complete lighting design.

The welcome deletion of clause J6.2 – (b)- (iii)- (B) – (cc) which in the NCC2016 version used to prescribe 100W of load per metre of mains voltage track (making it practically impossible to use mains voltage track lighting at all) would now allow to install track lighting for added flexibility and ease of installation.

Page 5

NCC Part J6 Revisions Case Study A Conference Room

ABOUT THE SPACE

Building name (if

applicable) and address173 Swan Street , Richmond VIC 3121

Lighting consultants Schuler Shook Pty, Ltd


Space type Board Room and Conference Room

Completion date Feb-Mar 2018. Currently fit out stage

Space Size 27.15 m2

Proposed or achieved

environmental certifications

and status

none

Page 6


- Client requirements: good illumination of the board room table , horizontal for local

meetings vertical for face recognition during video conferences. Good illumination

of the vertical surfaces of the room, for optimal image rendering during video

conferences and for good highlighting of the pictures which will be displayed on the

walls. Allow for soft cosy lighting for possible lounge corner. Allow for interface with

AV system.

- Installed wattage: 208.8W

- Area in square metres: 27.15 m2


adjustments for controls or Room Aspect Ratio): 7.69 W/m2

- Luminaire number and type : see attachment

- Luminaire technical details (including where appropriate): see attachment


Colour temperature

Beam angle

Beam direction

Beam distribution

- Controls Details (if any): all the fixtures are DALI dimmable. The system includes

astronomical clock anf ethernet gateway for AV interface

Page 7

Describe the overall planned or achieved NCC 2016 compliance method for the building and its

components.

Describe the changes to the same space that would be required in order to comply with NCC

2019 (assume client requirements are unchanged)

Provide estimates of any changes in construction costs between the 2016 version and the 2019

version

No changes required

The illumination power density allowed by the NCC2019 is 8.02W/m2. Including the additional allowances for the RAR factor and the adjustment factor of Lumen depreciation dimming. The total power allowed is 217.8W, therefore the original design is within the allowance.



Temperature): 7.69 W/m2

use of the DTS Provisions

Page 8

Provide a written summary of any other significant variations or points of interest generated by

the analysis

Attachments: 1- Light fixtures details2- Lighting Layout for NCC2016 compliant design3- Lighting Layout for NCC 2019 compliant design.

Please note, there is no variation in design between NCC 2016 compliant version and NCC 2019 compliant version.

See comments for space 1

Page 9

Office at 173 Swan Street

Schuler Shook

173 Swan Street Richmond VIC

18.01.2018

OperatorTelephone

Fax

e-Mail

Office at 173 Swan Street / Luminaire parts list

72 Pieces Delta Light NV SUPERLOOP SBL Black High Current - 1 unit SUPERLOOP SBL Black High

Current - 1 unit

SA

SE

SH

SB/SA

Article No.: SUPERLOOP SBL Black High Current - 1 unit

SB/SA

Luminous flux (Luminaire): 75 lmLuminous flux (Lamps): 171 lmLuminaire Wattage: 1.9 WLuminaire classification according to CIE: 100CIE flux code: 44 75 93 100 44

Fitting: 1 x LEDFLEX @ high current (Correction Factor 1.000).

See our luminaire catalog for an image of

the luminaire.

4 Pieces ERCO 73282000 Pollux Floodlight 1xLED 6W warm whiteArticle No.: 73282000Luminous flux (Luminaire): 513 lmLuminous flux (Lamps): 630 lmLuminaire Wattage: 8.0 WLuminaire classification according to CIE: 100CIE flux code: 96 99 100 100 81

Fitting: 1 x LED 6W warm white (Correction Factor 1.000).

2 Pieces IGUZZINI P345 Laser 10WArticle No.: P345Luminous flux (Luminaire): 889 lmLuminous flux (Lamps): 1100 lmLuminaire Wattage: 10.0 WLuminaire classification according to CIE: 100CIE flux code: 100 100 100 100 81Fitting: 1 x A29H (Correction Factor 1.000).

1 Pieces IGUZZINI Q443_INCA iN 90 LED 16.6WArticle No.: Q443_INCALuminous flux (Luminaire): 1799 lmLuminous flux (Lamps): 2500 lmLuminaire Wattage: 16.6 WLuminaire classification according to CIE: 100CIE flux code: 65 90 98 100 72Fitting: 2 x 1 x A49U (Correction Factor 1.000).

1 Pieces IGUZZINI Q453_Q420_1_INCA iN 90 LED 9.3WArticle No.: Q453_Q420_1_INCALuminous flux (Luminaire): 900 lmLuminous flux (Lamps): 1250 lmLuminaire Wattage: 9.3 WLuminaire classification according to CIE: 100CIE flux code: 65 90 98 100 72Fitting: 1 x A81T (Correction Factor 1.000).

Page 1

Attachment 1 for Case Study A

Page 10


Schuler Shook


18.01.2018

OperatorTelephone

Fax

e-Mail


10 Pieces IGUZZINI Q455_Q421_1_INCA iN 90 LED SB/SA

16.6WArticle No.: Q455_Q421_1_INCALuminous flux (Luminaire): 1835 lmLuminous flux (Lamps): 2550 lmLuminaire Wattage: 16.6 W

SF

SG

SL

Luminaire classification according to CIE: 100CIE flux code: 65 90 98 100 72

Fitting: 1 x A85T (Correction Factor 1.000).

7 Pieces IGUZZINI Q591 Laser Blade XS Wall -Washer

SM

12.4WArticle No.: Q591Luminous flux (Luminaire): 293 lmLuminous flux (Lamps): 770 lmLuminaire Wattage: 12.4 WLuminaire classification according to CIE: 100CIE flux code: 57 83 96 100 38

Fitting: 1 x A15W (Correction Factor 0.600).

1 Pieces Zumtobel 42 185 163 ONDA2 P LRO D870 LED7000 -830-60 LDE WH [STD]

Article No.: 42 185 163Luminous flux (Luminaire): 7100 lmLuminous flux (Lamps): 7100 lmLuminaire Wattage: 66.7 WLuminaire classification according to CIE: 98CIE flux code: 58 87 97 98 100Fitting: 1 x LED -Z42185160 (Correction Factor 0.700).

2 Pieces Zumtobel 42 185 213 MLinf AL LED3600 -830 L LDO SRArticle No.: 42 185 213Luminous flux (Luminaire): 3410 lmLuminous flux (Lamps): 3410 lmLuminaire Wattage: 32.6 WLuminaire classification according to CIE: 97CIE flux code: 51 81 95 97 100Fitting: 1 x LED -Z42185213 ges (Correction Factor 1.000).

3 Pieces Zumtobel 60 714 566 ARC WW 1/14W LED930 LDO 3CD WHM [STD]Article No.: 60 714 566Luminous flux (Luminaire): 950 lmLuminous flux (Lamps): 950 lmLuminaire Wattage: 14.0 WLuminaire classification according to CIE: 86CIE flux code: 35 71 91 86 100Fitting: 1 x LED_ArcWW_950_930 (Correction Factor 1.000).

Page 2Page 11


Schuler Shook


18.01.2018

OperatorTelephone

Fax

SK

e-Mail


7 Pieces Zumtobel 60 816 968 DIAMO R68 LED800 -930

LDO WW WH [STD]Article No.: 60 816 968Luminous flux (Luminaire): 800 lmLuminous flux (Lamps): 800 lmLuminaire Wattage: 14.0 WLuminaire classification according to CIE: 100CIE flux code: 78 93 99 100 100

Fitting: 1 x LED_Diamo_800_930 (Correction Factor 1.000).

Page 3Page 12


Page 13


Page 14

NCC Part J6 Revisions Case Study B -Office/ Retail (Bank)

BackgroundThis case study is one of a series intended to a take a space within a building that currently complies with Part J6 of the National Construction Code and then look at the changes that would be required in order to comply with NCC 2019. The purpose is to evaluate if the draft DTS Illumination Power Densities and luminaire efficacies, control factors and other suggested provisions for 2019 are practical and appropriate.

ABOUT THE SPACE

Building name (if applicable) and address

Commonwealth Bank of Australia 95 William St, Perth

Lighting consultants LightStudioMG Pty LtdBuilding classification Class 6

Space type Office space

Completion date Completion date unknown – currently in Tender phaseSpace Size 924m2

Proposed or achieved environmental certifications and status

Green Star

Page 15


- Client requirementsThe Commonwealth Bank of Australia are implementing new and improved branchesacross Australia. They have redesigned their branches to cater for individualisedcustomer services and lifestyle offerings, with private spaces and booths and salesoffices.The lighting requirements are geared towards drama, with pools of light across thefloor, highlight to super graphics walls and high accent ratios to task areas. Inaddition the lighting must be flexible to allow future changes and re-purposing of thebranch.

- Installed wattage:9,874W

- Area in square metres:924m2

- Illumination Power Density achieved as per NCC 2016 requirements (includingadjustments for controls or Room Aspect Ratio)10,328W

- Luminaire number and typeRefer accompanying Luminaire Schedule CBA Perth Lighting Schedule 2016 ASDESIGNED

- Luminaire technical details (including where appropriate)Refer accompanying Luminaire Schedule CBA Perth Lighting Schedule 2016 ASDESIGNED

- Controls Details (if any)Lighting control - switched via time clock

Page 16

Describe the overall planned or achieved NCC 2016 compliance method for the building andits components.

Compliance achieved via Deemed to Satisfy.


- To achieve compliance with NCC 2019 the space was redesigned. Referrelevant schedule in the next table for information. The current design wasretested with the proposed NCC 2019 codes. The significantly reducedIllumination Power Density and Adjustment Factors (including the new CorrectColour Temperature Adjustment Factor in Table J6.2c) were applied within thecalculation.

- For a complete list of the changes made, refer accompanying LuminaireSchedule- CBA Perth Lighting Schedule 2019 AS DESIGNEDLuminaire number and typeRefer accompanying Luminaire Schedule CBA Perth Lighting Schedule 2019REVISED DESIGNLuminaire technical detailsRefer accompanying Luminaire Schedule CBA Perth Lighting Schedule 2019REVISED DESIGN

- Controls Details (if any)Lighting control – switched via time clock

- Illumination Power Density achieved as per NCC 2019 requirements (includingadjustments for Controls, Room Aspect Ratio, Colour Rendition or ColourTemperature)Refer accompanying IPD Calculation CBA Perth IPD Calculation 2019REVISED DESIGN

Page 17

Provide estimates of any changes in construction costs between the 2016 version and the2019 version


As designed = $47565Revised design = $45,225The above costs are associated with the supply of light fittings only, which achieved a slight reduction in materials due to the deletion of a number of light fittings.

The following changes were required for the design to pass Section J 2019:1. Change track (TR1) from 3 circuit to single circuit2. Delete longest run of cove lighting (26m x l3)

The primary reason for the redesign was the change to the rules related to track lighting (J6.2.b.iii.B). Basing the power calculation for track lighting on 80% of the system circuit, while intended to ensure that excessive track lighting is not installed following the completion of a building, has the unintended consequence of making it virtually impossible to install track lighting in most situations.

Track lighting is a significant lighting tool employed within many projects to provide flexibility, in both the position of spot luminaires and the use of the track to power other types of light fittings other than spotlights, e.g. decorative pendants. The track clause needs further exploration and possibly consider the following:

1. Light sources used (LED, metal halide, etc). Previous 100W/m was based on 2 x50W halogens. Perhaps reducing the W/m compensate to the average efficacyof LED lamps may be more appropriate e.g. Allow 2x 15W LED per metre =30W/m.

2. Track length – track length should be considered if using the circuit breakerclause.

3. Low voltage vs mains voltage track ; single circuit track vs 3-circuit track.4. Lower rated circuit breaker to reduce the installation of additional fittings

after project has been certified.

Attachments:1. Lighting layouts2. Luminaire schedule - as designed 2016 NCC provisions3. IPD Calculations as designed - 2016 NCC provisions4. IPD Calculations as designed - 2019 NCC provisions5. Luminaire schedule re-design 2019 NCC provisions6. IPD calculations - re-design to 2019 NCC provisions

Page 18

Attachment 1 for Case Study B

Page 19

LUMINAIRE & LOAD SCHEDULE

NOTES

PROJECT NAME

DOCUMENT NO

REVISION

DATE

CBA PERTH 1. CBA to confirm all colour selections

2. All quantities & lengths are estimates AND SHOULD NOT BE ORDERED FROM

P0177_SLD_2001 3. Unit prices are for budgeting purposes only

01 4. Budget excludes GST

07.02.2018

LOADS AS DESIGNED - PASSED NCC 2016

BOH OFFICE FOH BRANCH INDIV OFFICE SAFE CUSTODYSAFE CUSTODY

BOOTHBUNKER PREM LOBBY TRANS BX/FX TELLER BOH FEMALE TOILETS MALE TOILETS ACCESSIBLE WC TOTALS

LOCATION DESCRIPTION PRODUCT CODE CONTROL FITTING IMAGE WATTAGE QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYTOTAL

LOAD (W)

Low profile LED panel Pierlite ECO LED Panel 36Wnon-

dimmableBOH with shallow surface

frame4000K 3400lm with shallow surface frame - 94LM/W

C1remote driver

non-

36 44 1584 0 0 0 0 14 504 0 0 0 0 0 0 0 58 2088

BOHLow profile LED panel with deep surface frame

Recessed linear LED

Pierlite ECO LED Panel 18W 4000K 1500lm with deep surface frame - 83LM/W

iGuzzini Laser Blade High Contrast 5 cell 10W 3000K

C2dimmable

integral driver

non-dimmable

18 0 0 0 12 216 0 0 0 0 0 0 0 0 0 12 216

Lobbydownlight 32deg 735lm 90CRI with trim -

73.5LM/W

D1remote driver

non-

10 0 18 180 0 0 0 0 0 0 0 0 0 0 0 18 180

BOH Recessed LED downlightUnios Micron 10W 24V 3000K 850lm 92CRI 48° - 85LM/W

D2dimmable

remote driver

non-

10 14 140 3 30 0 0 4 40 0 0 0 3 30 3 30 5 50 6 60 2 20 40 400

Premier Banking Recessed LEDVueLite WWA-LED 12.2W 24V

dimmableentry

Sales Office

wallwasher downlight

Recessed linear LED profile

Recessed linear LED

3000K 1540lm 85CRI 48° - 126LM/W

Xero XTE 2.0 Recessed 1981mm unit length with plexiglass diffuser 3000K 1643lm 21W/m - 78LM/W

Xero XTE 2.0 Recessed 1422mm unit length with

D3

L1

remote driver

non-dimmable

12.2

42

0

0

0 0

0 9

0

378

0

0

0

0

0 0 0 0 0

0

5 61

0 2

0 0

84

0

0

0

0

0

0

0

0

0 0 0 0 0 0

0

5

11

61 $

462integraldriver

non-dimmable

Pilot

Modular Sales

profile

Recessed linear LED

plexiglass diffuser 3000K 1173lm 21W/m - 56LM/W

Xero XTE 2.0 Recessed 1981mm unit length with

L1A 31.5 0 0 1 31.5 0 0 0 0 0 0 0 0 0 0 1 31.5integraldriver

non-dimmable

Office profile plexiglass diffuser 3000K 1643lm 21W/m - 78LM/W

L2 42 0 3 126 0 0 0 0 0 0 0 0 0 0 0 3 126integraldriver

non-Linear LED in cove profile

VueLite DELTA 24W 24Vdimmable

Lobby cove

Kitchen, Sales offices & ATM niches

with opal diffuser

Linear LED in aluminium extrusion with opal diffuser

3000K 1896lm/m 90CRI - 29LM/W

VueLite ALPHA 14.4W 24V 3000K 1195lm/m 90CRI - 83LM/W

L3

L4

remote driver

non-dimmable

remote driver

24

14.4 2.9

0

41.76

61

23.6

1464

339.84

0 0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0 0 0 0 0 0 0 0 0 0 0

0

61

26.5

1464

381.6

non-Linear LED in cove profile

VueLite DELTA 14.4W 24Vdimmable

Kitchen covewith opal diffuser

Linear LED recessed

4000K 1195lm/m 90CRI - 83LM/W

Zumtobel Slotlight Infinity Technical wallwasher 5m

L5remote driver

non-dimmable

14.4 5 72 0 0 0 0 0 0 0 0 0 0 0 0 5 72

Transactionswallwasher length 6960lm 3000K 80CRI -

88LM/W

L6integral driver

79 0 0 0 0 0 0 0 1 79 0 0 0 0 0 1 79

BUDGETBUDGET ESTIMATED SUPPLY

COST

M EST UNIT AUD TOTAL AUD

$ 60.00 $ 3,480.00

$ 120.00 $ 1,440.00

$ 220.00 $ 3,960.00

$ 50.00 $ 2,000.00

$ 150.00 $ 750.00

$ 485.00 $ 5,335.00

$ 450.00 $ 450.00

$ 485.00 $ 1,455.00

M $ 90.00 $ 5,490.00

M $ 90.00 $ 2,385.00

M $ 90.00 $ 450.00

$ 1,450.00 $ 1,450.00

LightStudioMG Pty Ltd | +61 416 190 679 | www.lightstudiomg.com


Page 20


NOTES

PROJECT NAME

DOCUMENT NO

REVISION

DATE





07.02.2018

LOADS AS DESIGNED - PASSED NCC 2016




TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

SUB-QTY TOTAL

LOAD (W)QTY

SUB-TOTAL

LOAD (W)QTY

SUB-TOTAL

LOAD (W)QTY

SUB-TOTAL

LOAD (W)QTY

SUB-TOTAL

LOAD (W)QTY

SUB-TOTAL

LOAD (W)QTY

TOTAL LOAD (W)

BUDGETBUDGET ESTIMATED SUPPLY

COST

M EST UNIT AUD TOTAL AUD

BB / FX Teller

Sales areas

Super graphics wall

Black & white graphic

Sales areas

Sales areas

Linear LED recessed wallwasher

Track mounted spotlight - narrow beam

Track mounted wall washer

Track mounted spotlight - wide beam

Recessed track

Decorative wall light

Zumtobel Slotlight Infinity Technical wallwasher 2m length 2790lm 3000K 80CRI - 85LM/W

Red Square Alpha S 16W 950lm 18° 3000K 90CRI with honeycomb louvre and snoot - 59LM/W

Opton Lens Wall Washer 19W 1860lm 3000K CRI90 - 98LM/W

Red Square Alpha S 16W 950lm 40° 3000K 90CRI with honeycomb louvre and snoot - 59LM/W

3-circuit recessed Eutrac - 21M LENGTH

Caravagio (refer FF&E specification) with 8W LED 3000K lamp

L6A

S1

S2

S3

TR1

W1

non-dimmable

integral driver

non-dimmable

integral driver

integrated driver with on-board dimmer

non-dimmable

integral driver

N/A

non-dimmable

integral driver

33

0

0

0

2100

8

0

0

0

0

0

0

18

11

5

3

8

0 0

0 0

0 0

0 0

6300

64

0

0

0

0

0 0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0 0 0 0 0 0 0

0

0

0

0

0

1 33

0

0

0

0

0

0 0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0 0 0 0

0 0 0 0 0 0 0 0 0 0 0 0

0 0 0 0 0 0 0 0 0 0 0 0

0 0 0 0 0 0 0 0 0 0 0 0

0 0 0 0 0 0 0 0 0 0 0

0

1

18

11

5

3

8

33 $

0 $

0 $

0 $

6300

64

AREA LOAD

1838A AL AD

8504AREA LOAD

410AREA LOAD

216AREA LOAD

40AREA LOAD

504AREA LOAD

61AREA LOAD

163AREA LOAD

63AREA LOAD

30AREA LOAD

50AREA LOAD

60AREA LOAD

20TOTAL LOAD

11959

$ 680.00 $ 680.00

$ 280.00 $ 5,040.00

$ 500.00 $ 5,500.00

$ 280.00 $ 1,400.00

M $ 2,100.00 $ 6,300.00

EST TOTAL AUD

(excl GST)

$ -

$ 47,565.00


Page 21

NCC SECTION J CALCULATION - 2016

PROJECT NAME

DOCUMENT NUMBER

REVISION

DATE

CALCULATION

COMMONWEALTH BANK OF AUSTRALIA

P0177_SLD_4001

01

7.02.2018

Bank Branch

ROOM ASPECT RATIO ADJUSTMENTS CONTROL ADJUSTMENTS LOAD VALUES

ROOM / AREA DESCRIPTION Room Dimensions

Room Aspect Ratio

A/(HxC)

Room Aspect Adjustment

Factor

if <1.5 = 0.5 + (RAR/3)

if >1.5 = 1

Illumination Power Density

(W/sqm) Allowance

Refer to Table 6.2a

Maximum Illumination

Density (W/sqm) Adjusted

Adjustment Factor 1 (Lowest) (A)

Refer to Table 6.2b

Adjustment Factor 2 (Second Lowest)

(B)

Refer to Table 6.2b

Total Adjustment

Ax(B+[(1-B)/2])



Permitted Load (W)

Actual Load (W)

Balance (W)

Area (A)

Height (H)

Perimeter (C)

Description Value Description Value

BOH Office 257.0 m² 120 m 2.7 m 0.790.890.240.920.390.470.310.410.280.290.310.240.22

0.760.800.580.810.630.660.600.640.590.600.600.580.57

92299999999666

11.7727.6615.5611.1814.2713.7014.9314.1415.1315.069.93

10.3410.45

Motion Detector

Motion Detector

Motion DetectorMotion DetectorMotion DetectorMotion Detector

0.91111

0.9111

0.90.90.90.9

1111111111111

0.901.001.001.001.000.901.001.001.000.900.900.900.90

13.0827.6615.5611.1814.2715.2214.9314.1415.1316.7311.0311.4911.61

3362.108492.031088.90894.29256.85852.19223.92296.96151.27158.93121.32149.3669.68

1838 W 1524.1-12.0678.9678.3216.8348.2162.9134.088.3

128.971.389.449.7

FOH Branch 307.0 m² 99 m 3.5 m 8504 WIndiv Office 70.0 m² 110 m 2.7 m 410 WSafe Custody 80.0 m² 38 m 2.3 m 216 WSafe Custody booth 18.0 m² 17 m 2.7 m 40 WBunker 56.0 m² 44 m 2.7 m 504 WPremier Banking Lobby 15.0 m² 18 m 2.7 m 61 WTransactions 21.0 m² 19 m 2.7 m 163 WBX/FX Teller 10.0 m² 13 m 2.7 m 63 WTeller BOH 9.5 m² 12 m 2.7 m 30 WFemale Toilet 11.0 m² 13 m 2.7 m 50 WMale Toilet 13.0 m² 20 m 2.7 m 60 WAccessible Toilet 6.0 m² 10 m 2.7 m 20 W

BALANCE16118 W 11959 W 4159 W

4159 W

Page 1 P0177_SLD_4001 - CBA Perth IPD Calculation 2016 AS DESIGNED [Rev -].xlsx


Page 22


PROJECT NAME

DOCUMENT NUMBER

REVISION

DATE

CALCULATION


P0177_SLD_4002

01

7.02.2018

Bank Branch

IlluminationRoom Aspect


Power DensityTotal

AdjustmentRatio

Factor(W/sqm)

Allowancefrom 6.2b

if <1.5 = 0.5 + (RAR/3)

Area Height PerimeterDescription Value Description Value Description Valueif >1.5 = 1

(A) (H) (C)BOH Office 257.0 m² 2.7 m 120 m 0.79 0.76 4.5 5.89 Motion Detector 0.7 1 0.70 1 8.41 2161.35 1838 W 323.3FOH Branch 307.0 m² 3.5 m 99 m 0.89 0.80 16 20.12 1 1 1.00 CCT <3000K 1.2 24.14 7411.22 23764 W -16352.8Indiv Office 70.0 m² 2.7 m 110 m 0.24 0.58 4.5 7.78 1 1 1.00 CCT <3000K 1.2 9.33 653.34 410 W 243.3Safe Custody 80.0 m² 2.3 m 38 m 0.92 0.81 4.5 5.59 1 1 1.00 1 5.59 447.14 216 W 231.1Safe Custody booth 18.0 m² 2.7 m 17 m 0.39 0.63 4.5 7.13 1 1 1.00 CCT <3000K 1.2 8.56 154.11 40 W 114.1Bunker 56.0 m² 2.7 m 44 m 0.47 0.66 4.5 6.85 Motion Detector 0.6 1 0.60 1 11.41 639.15 504 W 135.1Premier Banking Lobby 15.0 m² 2.7 m 18 m 0.31 0.60 4.5 7.46 1 1 1.00 CCT <3000K 1.2 8.96 134.35 61 W 73.4Transactions 21.0 m² 2.7 m 19 m 0.41 0.64 4.5 7.07 1 1 1.00 CCT <3000K 1.2 8.48 178.18 163 W 15.2BX/FX Teller 10.0 m² 2.7 m 13 m 0.28 0.59 4.5 7.56 1 1 1.00 CCT <3000K 1.2 9.08 90.76 63 W 27.8Teller BOH 9.5 m² 2.7 m 12 m 0.29 0.60 4.5 7.53 Motion Detector 0.4 1 0.40 CCT <3000K 1.2 22.59 214.56 30 W 184.6Female Toilet 11.0 m² 2.7 m 13 m 0.31 0.60 2 3.31 Motion Detector 0.4 1 0.40 CCT <3000K 1.2 9.93 109.19 50 W 59.2Male Toilet 13.0 m² 2.7 m 20 m 0.24 0.58 2 3.45 Motion Detector 0.4 1 0.40 CCT <3000K 1.2 10.34 134.43 60 W 74.4Accessible Toilet 6.0 m² 2.7 m 10 m 0.22 0.57 2 3.48 Motion Detector 0.4 1 0.40 CCT <3000K 1.2 10.45 62.71 20 W 42.7

Total area 873.5 m² 12390 W 27219 W -14829 WBALANCE

Differences from NCC 2016 to 2019 that affect this project:i) Significantly reduced IPDii) Significantly reduced AFiii) Introduction of CCT AFiv) Track lighting reviewed from 100W/m to maximum load of circuit breakers

-14829 W

*NOTES:1. Wording in note 3 below table 6.2a is ambiguous. The assumption has been made that the adjustment factors in tables J7.2 can be applied if the inclusion of the control device is over and above what is required in J6.3. The motion detectors were not required , therefore the adjustment factor has been applied2. Reference to 8am -7pm time limitation in the notes for J6.2b has been ignored, as it does not explain how to apply the adjustment factor only between these specific hours or how this would work for a space that is also used outside these hours.3. Wording in the desciption column of table 6.2c is ambiguous. The assumption has been made that the listed CRI or CCT adjustment factor can be applied to all spaces where the respective CRI or CCT have been used , not just spaces where the CRI or CCT is required for Green Star or another reason.

ROOM ASPECT RATIO ADJUSTMENTSCONTROL DEVICE ADJUSTMENTS

(*notes 1 & 2)COLOUR ADJUSTMENT

(*note 3)LOAD VALUES

Maximum Adjustment Factor 1 (Lowest)Adjustment Factor 2

(Second Lowest) Adjustment Factor 3 Maximum

ROOM / AREA DESCRIPTION Room Dimensions Illumination Power Density

(A)(B) Illumination

PowerPermitted Actual Load

Balance(W/sqm) Density

Load (W)

(W)(*note 4)

(W)

A/(HxC)Refer to

Adjusted with RAR

Refer to Table 6.2b Refer to Table 6.2bAx(B+[(1-

Refer to Table 6.2c (W/sqm) Adjusted

Table 6.2a B)/2])

4. J6.2 clause (b)(iii)(B) is ambiguous. The assumption has been made that point (aa) must be used for 240V track, and that point (bb) would be used for low voltage track. In this project the track is 240V 3 circuit track, therefore 3 x 10A has been allowed for each piece of track in the load calculations.

Page 1 P0177_SLD_4002 - CBA Perth IPD Calculation 2019 AS DESIGNED [Rev -].xlsx


Page 23


NOTES

PROJECT NAME

DOCUMENT NO

REVISION

DATE





07.02.2018

REVISED DESIGN LOADS - PASSED NCC 2019 BUDGET



BUDGET ESTIMATED SUPPLY COST


TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYTOTAL

LOAD (W)M EST UNIT AUD TOTAL AUD

BOHLow profile LED panel Pierlite ECO LED Panel 36W with shallow surface 4000K 3400lm with shallow frame surface frame - 94LM/W

C1

non-dimmable

remote driver

non-

36 44 1584 0 0 0 0 14 504 0 0 0 0 0 0 0 58 2088 $ 60.00 $ 3,480.00

Low profile LED panelPierlite ECO LED Panel 18W

dimmableBOH

with deep surface frame4000K 1500lm with deep surface frame - 83LM/W

iGuzzini Laser Blade High Recessed linear LED Contrast 5 cell 10W 3000K

C2integral driver

non-dimmable

18 0 0 0 12 216 0 0 0 0 0 0 0 0 0 12 216 $ 120.00 $ 1,440.00

Lobbydownlight 32deg 735lm 90CRI with trim -

73.5LM/W

D1remote driver

non-

10 0 18 180 0 0 0 0 0 0 0 0 0 0 0 18 180 $ 220.00 $ 3,960.00

BOH Recessed LED downlightUnios Micron 10W 24V 3000K 850lm 92CRI 48° - 85LM/W

D2dimmable

remote driver

non-

10 14 140 3 30 0 0 4 40 0 0 0 3 30 3 30 5 50 6 60 2 20 40 400 $ 50.00 $ 2,000.00

Premier Banking Recessed LEDVueLite WWA-LED 12.2W 24V

dimmableentry wallwasher downlight

3000K 1540lm 85CRI 48° - 126LM/W

Xero XTE 2.0 Recessed Recessed linear LED 1981mm unit length with

D3remote driver

non-dimmable

12.2 0 0 0 0 0 0 5 61 0 0 0 0 0 0 5 61 $ 150.00 $ 750.00

Sales Office

Pilot

Modular Sales Office

profile plexiglass diffuser 3000K 1643lm 21W/m - 78LM/W

Xero XTE 2.0 Recessed Recessed linear LED 1422mm unit length with profile plexiglass diffuser 3000K

1173lm 21W/m - 56LM/W

Xero XTE 2.0 Recessed Recessed linear LED 1981mm unit length with profile plexiglass diffuser 3000K

1643lm 21W/m - 78LM/W

L1

L1A

L2

integral driver

non-dimmable

integral driver

non-dimmable

integral driver

non-

42

31.5

42

0

0

0 3

0

0

126

9

1

378

31.5

0

0 0

0 0

0

0

0

0

0

0

0

0 0 0 0

0

0

2 84

0

0

0 0

0

0

0

0

0

0

0

0

0

0

0

0 0 0 0 0

0 0 0 0 0 0 0 0 0 0

0

11

1

3

462 $

31.5 $

126

$ 485.00

$ 450.00

$ 485.00

$ 5,335.00

$ 450.00

$ 1,455.00

Linear LED in cove profileVueLite DELTA 24W 24V

dimmableLobby cove

Kitchen, Sales

with opal diffuser3000K 1896lm/m 90CRI - 29LM/W

Linear LED in aluminium VueLite ALPHA 14.4W 24V

L3remote driver

non-dimmable

24 0 35 840 0 0 0 0 0 0 0 0 0 0 0 35 840 M $ 90.00 $ 3,150.00

offices & ATM niches

extrusion with opal 3000K 1195lm/m 90CRI - diffuser 83LM/W

L4remote driver

non-

14.4 2.9 41.76 23.6 339.84 0 0 0 0 0 0 0 0 0 0 0 26.5 381.6 M $ 90.00 $ 2,385.00

Kitchen cove

Transactions

Linear LED in cove profile VueLite DELTA 14.4W 24V

with opal diffuser4000K 1195lm/m 90CRI - 83LM/W

Zumtobel Slotlight Infinity Linear LED recessed Technical wallwasher 5m wallwasher length 6960lm 3000K 80CRI -

88LM/W

L5

L6

dimmable remote driver

non-dimmable

integral driver

14.4

79

5 72

0

0 0

0

0

0

0

0

0

0

0

0

0

0 1

0

79

0

0

0

0

0

0

0

0

0 0 0 0 0 0 0 0 0 0 0 0

0

5

1

72

79

M $ 90.00

$ 1,450.00

$ 450.00

$ 1,450.00



Page 24


NOTES

PROJECT NAME

DOCUMENT NO

REVISION

DATE





07.02.2018

REVISED DESIGN LOADS - PASSED NCC 2019 BUDGET



BUDGET ESTIMATED SUPPLY COST


TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYSUB-

TOTAL LOAD (W)

QTYTOTAL

LOAD (W)M EST UNIT AUD TOTAL AUD

BB / FX Teller

Zumtobel Slotlight Infinity Linear LED recessed Technical wallwasher 2m wallwasher length 2790lm 3000K 80CRI -

85LM/W

Track mounted spotlight - Red Square Alpha S 16W 950lm 18° 3000K 90CRI with

L6A

non-dimmable

integral driver

non-dimmable

33 0 0 0 0 0 0 0 0 1 33 0 0 0 0 1 33 $ 680.00 $ 680.00

Sales areasnarrow beam honeycomb louvre and snoot -

59LM/W

S1integral driver

integrated

0 0 18 0 0 0 0 0 0 0 0 0 0 0 0 18 0 $ 280.00 $ 5,040.00

Super graphics Track mounted wallOpton Lens Wall Washer 19W

driver withwall

Black & white

washer1860lm 3000K CRI90 - 98LM/W

Track mounted spotlight - Red Square Alpha S 16W 950lm 40° 3000K 90CRI with

S2on-board dimmer

non-dimmable

0 0 11 0 0 0 0 0 0 0 0 0 0 0 0 11 0 $ 500.00 $ 5,500.00

graphic wide beam honeycomb louvre and snoot - 59LM/W

S3integral driver

0 0 5 0 0 0 0 0 0 0 0 0 0 0 0 5 0 $ 280.00 $ 1,400.00

3-circuitSales areas Recessed track

Single circuitrecessed Eutrac - 21M TR1 N/A 2400 0 3 7200 0 0 0 0 0 0 0 0 0 0 0 3 7200 $ 2,100.00 $ 6,300.00LENGTH

non-dimmable

Caravagio (refer FF&ESales areas Decorative wall light specification) with 8W LED

3000K lampW1

integral driver

3 0 8 24 0 0 0 0 0 0 0 0 0 0 0 8 24 $ -

EST TOTALAREA LOAD

1838AREA LOAD

8740AREA LOAD

410AREA LOAD

216AREA LOAD

40AREA LOAD

504AREA LOAD

61AREA LOAD

163AREA LOAD

63AREA LOAD

30AREA LOAD

50AREA LOAD

60AREA LOAD

20TOTAL LOAD

12195 AUD $ 45,225.00(excl GST)


Page 25


PROJECT NAME

DOCUMENT NUMBER

REVISION

DATE

CALCULATION


P0177_SLD_4003

01

7.02.2018

Bank Branch

IlluminationRoom Aspect

Room AspectPower Density

Total

RatioAdjustment

Factor(W/sqm)

Allowance

Adjustment from 6.2b

if <1.5 = 0.5 +(RAR/3)

Area Height PerimeterDescription Value Description Value Description Valueif >1.5 = 1

(A) (H) (C)BOH Office 257.0 m² 2.7 m 120 m 0.79 0.76 4.5 5.89 Motion Detector 0.7 1 0.70 1 8.41 2161.35 1838 W 323.3FOH Branch 307.0 m² 3.5 m 99 m 0.89 0.80 16 20.12 1 1 1.00 CCT <3000K 1.2 24.14 7411.22 8740 W -1328.8Indiv Office 70.0 m² 2.7 m 110 m 0.24 0.58 4.5 7.78 1 1 1.00 CCT <3000K 1.2 9.33 653.34 410 W 243.3Safe Custody 80.0 m² 2.3 m 38 m 0.92 0.81 4.5 5.59 1 1 1.00 1 5.59 447.14 216 W 231.1Safe Custody booth 18.0 m² 2.7 m 17 m 0.39 0.63 4.5 7.13 1 1 1.00 CCT <3000K 1.2 8.56 154.11 40 W 114.1Bunker 56.0 m² 2.7 m 44 m 0.47 0.66 4.5 6.85 Motion Detector 0.6 1 0.60 1 11.41 639.15 504 W 135.1Premier Banking Lobby 15.0 m² 2.7 m 18 m 0.31 0.60 4.5 7.46 1 1 1.00 CCT <3000K 1.2 8.96 134.35 61 W 73.4Transactions 21.0 m² 2.7 m 19 m 0.41 0.64 4.5 7.07 1 1 1.00 CCT <3000K 1.2 8.48 178.18 163 W 15.2BX/FX Teller 10.0 m² 2.7 m 13 m 0.28 0.59 4.5 7.56 1 1 1.00 CCT <3000K 1.2 9.08 90.76 63 W 27.8Teller BOH 9.5 m² 2.7 m 12 m 0.29 0.60 4.5 7.53 Motion Detector 0.4 1 0.40 CCT <3000K 1.2 22.59 214.56 30 W 184.6Female Toilet 11.0 m² 2.7 m 13 m 0.31 0.60 2 3.31 Motion Detector 0.4 1 0.40 CCT <3000K 1.2 9.93 109.19 50 W 59.2Male Toilet 13.0 m² 2.7 m 20 m 0.24 0.58 2 3.45 Motion Detector 0.4 1 0.40 CCT <3000K 1.2 10.34 134.43 60 W 74.4Accessible Toilet 6.0 m² 2.7 m 10 m 0.22 0.57 2 3.48 Motion Detector 0.4 1 0.40 CCT <3000K 1.2 10.45 62.71 20 W 42.7

Total area 873.5 m² 12390 W 12195 W 195 WBALANCE

Differences from NCC 2016 to 2019 that affect this project:i) Significantly reduced IPDii) Significantly reduced AFiii) Introduction of CCT AFiv) Track lighting reviewed from 100W/m to maximum load of circuit breakers

195 W

*NOTES:1. Wording in note 3 below table 6.2a is ambiguous. The assumption has been made that the adjustment factors in tables J7.2 can be applied if the inclusion of the control device is over and above what is required in J6.3. The motion detectors were not required , therefore the adjustment factor has been applied2. Reference to 8am -7pm time limitation in the notes for J6.2b has been ignored, as it does not explain how to apply the adjustment factor only between these specific hours or how this would work for a space that is also used outside these hours.3. Wording in the desciption column of table 6.2c is ambiguous. The assumption has been made that the listed CRI or CCT adjustment factor can be applied to all spaces where the respective CRI or CCT have been used , not just spaces where the CRI or CCT is required for Green Star or another reason.




Maximum Adjustment Factor 1 (Lowest)Adjustment Factor 2

ROOM / AREA DESCRIPTION Room Dimensions Illumination Power Density

(A)(Second Lowest)

(B)Adjustment Factor 3 Maximum

Illumination Permitted Actual LoadBalance

(W/sqm) Adjusted with Refer to Table 6.2b Refer to Table 6.2b Refer to Table 6.2c

Power Density (W/sqm)

Load (W)

(W)(*note 4)

(W)

A/(HxC)Refer to RAR Ax(B+[(1- Adjusted

Table 6.2a B)/2])

4. J6.2 clause (b)(iii)(B) is ambiguous. The assumption has been made that point (aa) must be used for 240V track & that point (bb) would be used for low voltage track. In this project the track was 240V 3 circuit track, but has been changed to single circuit track (1x10A per length) in order to comply with 2019.

CHANGES REQUIRED TO PASS SECTION J 2019:CHANGE TRACK (TR1) FROM 3 CIRCUIT TO SINGLE CIRCUITDELETE LONGEST RUN OF COVE LIGHTING (26M X L3)


Page 26

NCC Part J6 RevisionsCase Study C Office Background

This case study is one of a series intended to a take a space within a building that currently complies with Part J6 of the National Construction Code and then look at the changes that would be required in order to comply with NCC 2019. The purpose is to evaluate if the draft DTS Illumination Power Densities and luminaire efficacies, control factors and other suggested provisions for 2019 are practical and appropriate.

ABOUT THE SPACE


With held on request

Lighting consultants ElectrolightBuilding classification Class 5

Space typeTypical Office Floor (Level 8-14) comprised of Corridors,office, Kitchen

Completion date 4Q 2015Space Size 339m2


None -NABERS Status unknown

Page 27


- Client requirements,

- The brief was a challenging one: 'We want our new head office to feel less like yourusual commercial office space. We want a character and atmosphere to reflectwhat we do and create every day'. This set our team the goal to formulate acreative approach which was both unique and ambient, but still achieved therequirements of a modern workspace environment.

- Through a thorough understanding of the architecture and interiors concepts,together with close collaboration and careful integration, the team prepared alighting design to capture a blend of mood and performance. Lighting for visualcomfort was imperative, as was a restrained application of illumination to create aseries of spaces which feel natural and balanced. A distinct feel was conceptualisedthrough contrast of brightness and selection of luminaires.

- This is not like your usual office. It's a series of spaces which look to provide anatmosphere which is a joy to be in every day. There is no 'blanket' 320 lux, nor isthere an array of louvred troffers.

- .Installed wattage

3975W (all spaces)

- Area in square metres

339m2 (all spaces)

- Illumination Power Density achieved as per NCC 2016 requirements (includingadjustments for controls or Room Aspect Ratio)Maximum Allowable Illumination Power Load = 7022W. Installed Wattage 3975W

- Luminaire number and type

Withheld

- Luminaire technical details (including where appropriate)

Withheld

- Controls Details (if any)

Hybrid Control System. Lighting to Workstations programmable with Day lightharvesting and motion sensor, timeclock control for all other general office areas.Individual offices and meetings rooms fitted with motion sensors.

Page 28

3


Describe the changes to the same space that would be required in order to comply with NCC2019 (assume client requirements are unchanged)

As the specified luminaires are already highly efficient at delivering the intended effect, the only way to ensure compliance is to remove feature lighting elements, including:

•Deletion of Lighting to feature planters

•Deletion of Lighting to Feature Pendant

•Deletion of Lighting to open kitchen shelving

•Deletion of Task Lighting to Printer Area

Illumination Power Density achieved as per NCC 2019 requirements (including adjustments for Controls, Room Aspect Ratio, Colour Rendition or Colour Temperature)Maximum Allowable Illumination Power Load = 3441W. Installed Wattage 3439W.


DTS Method was used

Note: light fitting supply cost savings have been considered only. Installation, wiring and labour etc have been excluded.

Savings are as follows:

• Type L9 - $4,800 ex GST

• Type P4 - $1,100 ex GST

• Type L10 - $255 ex GST.

Grand Total = $6155 ex GST

Page 29


Reduced energy allowances nominated within the NCC 2019 results in the lighting restricts the ability to use indirect and decorative illumination to highlight attractive architectural elements that are essential in creating the necessary ambiance and visual hierarchy in the space.

It should be noted that this office design is already highly efficient as it does not provide blanket illumination across the whole floor plate. There are also areas of the Fit-out that are deliberately quite dark and moody, as it was part of the client brief to create a more intimate hospitality feel. A more conventional office lighting design (with higher levels of general illumination) may be even more constrained under the proposed NCC 2019 guidelines.

Page 30

NCC Part J6 Revisions Case Study D Entry Lobby

BackgroundThis case study is one of a series intended to a take a space within a building that currently complies with Part J6 of the National Construction Code and then look at the changes that would be required in order to comply with NCC 2019. The purpose is to evaluate if the draft DTS Illumination Power Densities and Luminaire efficacies, control factors and other suggested provisions for 2019 are practical and appropriate.

ABOUT THE SPACE


Withheld

Lighting consultants Electrolight


Space typeEntry Lobby from outside the building

Completion date Completion May 2013

Space Size 1020m

2


6 star Green Star, 5 star NABERS

Page 31


Client requirements, The building is situated in an area regarded for its architecture and sophistication, and home to business leaders, investment banks, international fashion labels and luxury hotels.

The development consists of a Tower building housing 18 occupiable floors, which includes a business centre and high-end retail and 7 levels of boutique offices.

Electrolight was commissioned to design specialist lighting to the Ground Floor common areas including the entry lobby, Atrium, main lobby and lift lobbies. Lighting emphasises the internal architecture and reinforces a sense of luxury and sophistication inherent with a premium office development of this nature.

The entry is constructed of travertine stone walls which continue through to the Atrium and ground floor lobby. The travertine is evenly illuminated using a range of different techniques including traditional wall washing, grazing and spotlighting. Metal halide lamps with a warm white colour temperature were used in the space to create warmth and augment the elegance of the interior. The lighting scheme supports the architecture, emphasising the stone material, which is a signature feature of the building, and provides excellent vertical illumination throughout the ground floor.

A glowing line at the base of the stone wall visually defines the perimeter of the entry, Atrium and lobby, creating the illusion of illuminating the full height of the stone wall. The glowing line is created by an architectural recess with frosted glass diffuser and internal LED strip.

• Installed wattage13,995W

• Area in square metres1020m2

• Illumination Power Density achieved as per NCC 2016 requirements (includingadjustments for controls or Room Aspect Ratio)Withheld

• Luminaire number and typeWithheld

• Luminaire technical details (including where appropriate)Withheld

• Power/output (lumens per watt):Ceramic Metal Halide (Approximately 94 lumens/W). LED Strip (Approximately 60 lumens/W)

Page 32

Controls Details (if any)

•Typically Non Dimmable 3with exception of LED Strip L-7 (used glowing floor linedetail).

• Room Aspect Adjustment factors applied as followso Entry 0.58o Atrium 0.5o Lobby 0.7o Lift Lobbies 0.5

Describe the overall planned or achieved NCC 2016 compliance method for the building and its components

DTS Method was used

Page 33


Luminaire technical details

• Power/output (lumens per watt)unchanged

• Colour temperaturewould remain unchanged

• Beam anglewall washing feature wall finish would not be possible

• Beam directionIn option 2 Downlights would replace wall washers and be aimed directly downwards

• Beam distributionPending Option

• Controls Details (if any)Unchanged

• Illumination Power Density achieved as per NCC 2019 requirements (includingadjustments for Controls, Room Aspect Ratio, Colour Rendition or Colour Temperature) 6W/m2 for an Entry Lobby from outside the building + Room Aspect Adjustment factor applied.

The changes to the lighting scheme that would be necessary to meet the conditions of the

NCC 2019 (predominately a reduction from 15Wm2 from the NCC 2016 to 6W/m2 for the NCC

2019 for an Entry Lobby from outside the building) include:

Option 1: Deletion of the feature glowing floor line and deletion of the lift lobby rear wall wash

lighting effect.

Option 2: Replace all dedicated wall wash light fittings (used to highlight the feature stone wall

cladding) with lower Wattage downlights (35W MH instead of the 70W MH wall washers) and

direct light fittings directly to the ground and delete the lift lobby rear wall wash lighting.

Page 34

Provide estimates of any changes in construction costs between the 2016 and 2019 version and the Including how these estimates were calculated, considering both materials and labour.

Note: light fitting supply cost savings have been considered only. Installation, wiring and labour etc have been excluded. The following Options would achieve a light fitting supply cost saving of: Option 1:Deletion of the feature glowing floor line ($43,822) and deletion of the lift lobby rear wall washlighting effect ($6,050). A total cost saving of $49,872 would be achieved.Option 2:Deletion of the lift lobby rear wall washing ($6,050) and replace all dedicated wall wash lightfittings (used to highlight the feature stone wall cladding) with lower Wattage down-lights (35W MH instead of the 70W MH wall washers) and direct light fittings directly to the ground and delete the lift lobby rear wall wash lighting total cost saving of $23,064 would be achieved.

Provide a written summary of any other significant variations or points of interest generated by the analysis. This might include a summary of design modifications to meet NCC 2019, challenges faced in achieving NCC 2019 compliance and any other expected costs or benefits (e.g. in relation to health, comfort, resilience, asset value, maintenance), and any lessons learnt.

Client direction was to create a sophisticated entry statement by highlighting feature walls and incorporating lighting details such as the glowing floor line to further enhance the prestige of the project.

Reduced energy allowances nominated within the NCC 2019 results in the lighting needing to have a more purely functional task and restricts the ability to use reflected illumination to create a welcoming, comfortable and innovative lighting strategy or layers of light to add to the sense of drama.

This is further compounded by the fact that the Australian Standard 1680.3.1 light level recommendations remain the same.

The requirement to meet the reduced energy requirement of the NCC 2019 will result in the following:

Option 1: an entry and foyer that lacks layers of light and a general reduction in the feeling of prestige. Does not meet clients requirements.

Option 2: an entry and foyer that appears dark and unwelcoming and does not meet the clients requirements.

Refer following selection of actual site photographs and comparable photoshop manipulated JPG’s depicting Lighting Option 1 & 2 visualisations.

Page 35

ABCB COMMENTThis may be an example of where a performance solution to Section J compliance would have been feasible. This building is targeting a higher NABERS and Green Star rating and there is a good possibility that the energy saved from the use of more efficient building services would more than allow for the energy used above the DTS level.In this instance the lighting designer would have needed to work with the engineers andclient to identify if this approach would still be feasible, especially as in this case a significant RAR adjustment factor would apply that would increase the allowable IPD to between 8.57 and 12 watts per square meter.

Page 36

NCC Part J6 Revisions Case Study E: Storage

BackgroundThis case study is one of a series intended to a take a space within a building that currently complies with Part J6 of the National Construction Code and then look at the changes that would be required in order to comply with NCC 2019. The purpose is to evaluate if the draft DTS Illumination Power Densities and luminaire efficacies, control factors and other suggested provisions for 2019 are practical and appropriate.ABOUT THE SPACE


Withheld

Lighting consultants WSP Specialist Lighting

Building classification Office area: Class 5 Storage areas (this case study): Class 7b

Space type Storage with shelving higher than 75% of the aisle lighting

Completion date February 2017Space Size 1641.5 Meters squaredProposed or achieved environmental certifications and status

4.5 NABERS

Page 37


2

- Client requirements:

: Be operational either for a fixed time or when movement is detected within thezone/bank or approximately 50m2

: The lighting configuration is to be such that is maximises illumination over theimmediate circulation spaces between the shelving rows

: Illumination not to be less than 160 lux or more than 320 lux at floor level andalong the vertical face of the shelving

: Minimum distance of 500mm between a lamp and the nearest document

- Installed wattage: 9444 W

- Area in square metres 1641.5 m2

- Illumination Power Density achieved as per NCC 2016 requirements (includingadjustments for controls or Room Aspect Ratio) : 5.75 W/m2

- Luminaire number and type:

: Type L8, Trilux E-Line LED trunking, 1500mm, 48W, Qty. 174

: Type L7, Fagerhult Allfive LED, 600mm, 28W, Qty. 28


Type L8:

§ Power/output (lumens per watt): 137 lm/W

§ Colour temperature: 4000K

§ Beam direction: Direct (downwards)

§ Beam distribution: Symmetric Wide

Type L7:

§ Power/output (lumens per watt): 128 lm/W

§ Colour temperature: 4000K

§ Beam direction: Direct (downwards)

§ Beam distribution: Diffuse

- Controls Details (if any):

Aisle lighting automatic using PIRs. Storage areas manually switched in zoneswith switch activating timed operation. Switch panels have three switches: 20minute timer/ 60 minute timer/off.

Page 38

Describe the overall planned or achieved NCC 2016 compliance method for the building andits components.

Describe the changes to the same space that would be required in order to comply with NCC2019 (assume client requirements are unchanged)

DTS Provisions used to comply

I believe the client’s requirements would have been practically impossible to meet with a limit of 2.5W/m2 for storage with a vertical illuminance target of 160 lux. See below for details:

The luminaire installed is of very high efficiency, very good quality and with high quality optics. We do not believe there are others on the market which would have the significantly higher efficacy required to assist in reaching the target of 2.5W/m2.

Also, we would argue that changing the controls to include a Passive Infra-red (PIR) motion sensor to add an additional adjustment factor would have the unintended consequence of increasing power usage.

For clarity, WSP control philosophy is:

• General circulation lighting (aisles between compactuses) is PIR controlled, each section of corridor functioning independently, so corridors only illuminate when they are used. Compactus lighting does not turn on automatically, allowing people to walk through the corridors without activating the compactus lighting

• Compactus lighting is controlled by manual switch. The switches enable timed operation of 1 hour or 30 minutes (two labelled switches) and also OFF. Each compactus must be deliberately switched on when you want to use it, and can be switched off straight after

With PIR control only:

• Due to the height of the compactuses, locating PIRs above the shelving would not be possible, therefore compactus lighting would need to be switched by PIRs in the circulation corridors

• A PIR in the circulation corridor would need to switch the compactus on both sides of the corridor, as you would not be able to predict which compactus was going to be activated, so two compactuses would switch any time you walked down a corridor between the shelving

• Compactus lighting would switch on even if you were walking through the space not intending to use a compactus

• To allow a safety factor so that people aren’t left in the dark, the PIR timing would need to be 30 or 60 minutes

Page 39


Provide a written summary of any other significant variations or points of interest generated bythe analysis

Not applicable, as meeting the 2019 requirements would not have been possible.

The storage room consisted of large banks of compactus storage. Lighting was required over all areas of the compactus, as the aisles between shelving could move. Aisles were tall and narrow (with the shelving height 82.5% of the height of the lighting), restricting light throw between shelving.

Page 40

ABCB COMMENTThe required Illumination Power Density for Storage Spaces targeting a vertical illuminance of 160 lux has, since the completion of this case study, updated from 2.5 W/m2 to 4 W/m2. This was primarily done to provide consistency with the Illumination Power Density requirements with a similar requirement (a Plant Room targeting an illumination level of 160 lux on the vertical plane). Further, given this space was justified in targeting an illumination level of between 160 and 320 lux a higher IPD of 4.5 W/m2 may have been justified.

The space could also potentially have complied as is by submitting itself as a Performance solution. In this instance the proposed configuration of the lighting timers could reasonably expect to generate energy savings above what a DTS compliant solution would be. If this could be demonstrated clearly to a certifier then the space would comply as is.

Attachments

•2016 and 2019 Luminaire layout

Page 41

L3

L3

L1

L1

L3

L3

L3

L3

L3 L3

L7

L3

L1

SP2

L1

SP2

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PIR-2

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103L1

L1L1

PIR-2

L1

4 5 FOR CONTINUATION REFER TO DRG. 6 7 8 DO NOT SCALEDB- UPS.DPR/ L3

GRC- L7/ LC7

DB-H.G/ L18 GRE- L3/ LC7

L26

PIR-3

L3

L26 L26

SP1

E104 PIR-3

L26

DB- RS.GN/ L13GRB-L12

NOTES1. FOR GENERAL NOTES AND LEGEND REFER TO DRAWING E002. SP3 SWITCH PANELS TO SWITCH THE NEAREST BANK OF

DB-H.G/ L10 GRC- L6/ LC7

FSP1

SP1

L3

L3 L3

L3 L3 L3

L7

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DB-RS.GS.E/ L2GRC- L6

DB- RS.GS.E/ L1GRC- L3

L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8181.5 sq m

L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8

PIR-3P L26

L26

PIR-3

COMPACTUS LIGHTING. REFER TO DRAWING E900 FOROPERATION DETAIL3.CABLING FOR LUMINAIRES IN ROOMS WITH NO CEILING ARE TO BE CAST THROUGH SLAB TO SURFACE MOUNTED LUMAINAIRES. ALLOW FOR WIRING.4. SP1 SWITCHES TO TURN ON/OFF LUMINAIRES. REFER TO E900FOR OPERATION DETAIL FOR EACH ROOM.5. SP2 SWITCHES TO DIM LUMINAIRES. REFER TO E900 FOROPERATION DETAIL FOR EACH ROOM.6. ALL EMERGENCY LUMINAIRES TO BE CONNNECTED BACK TOTHE CENTRAL MONITORING SYSTEM.

DB- UPS.DPR/ L4GRE- L5

DB- UPS.DPR/ L1GRC- L6/ LC7

G

L7

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SP1 SP1

L8 L8 L8 L8 L8 L8 L8

SP3

L9 L9 L9L8 L8 L8 L8 L8 L8

L26

DB-RS.GS.E/ L6GRC- L1

181.5m2

LuminaireL26 L26 L26

DB-O.G/ 20GDF- L1/ LC2

DB-O.G/ 20 GDF- L1/ LC1

DB-OG.L/ L8GDF- L1/ LC1

DB-OG.L/ L7GRC- L7/ LC7

DB-OG.L/ L6 GDF- L1/ LC7

H

J

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SP2

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L4DB- UPS.DPR.BDB- UPS.DPR.A L4

GRE- L9

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DB-RS.GS.E/ L7GRD- L3

DB-RS.GS.E/ L3GRC- 11

DB- RS.GS.E/ 12GRC- 10


DB-RS.GS.E/ L9GRD-5

L8: 24 L7: 0

Area included in this case study (continues from previous sheet)

SP2L1A L1A L1A L1A L1A

L1A L1A L1A L1A L1A

L8

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DB- RS.GS.E/ L14GRE- L6

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L8 L8 L8 L8 L8 L8 L8

L8 L8 L8 L8 L8 L8PIR-3

L26

DB- H.G/ 11 GDF- L1/ LC1


K

L1A L1A L1A L1A L1A

L1A L1A L1A L1A L1A

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L5 L5 L5 L5 L5 L5 L5 L5 L5

L1A L1A L1A L1A L1A L8DB-RS.GS.E/ L5

L5 L5 L5 L5 L5 L5 L5 L5 L5

DB-OG.L/ L5GDE- L2

L1A L1A L1A L1A L1A

GRD- L2

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SP1 L5 L5 L5 L5 L5 L5 L5 L5 L5

DB-H.G/ L12 GRD- L7/ LC7

LDB-RS.GS.E/ L5

GRD- L9

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L33

L26 L26

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SP1

DB- H.G/ 14 GDF- L1/ LC1

DB-H.G/ L13 GRD- L8/ LC7

L33

A 06.11.15 DKN 100% TENDER ISSUE SMU AAH

REV DATE BY DESCRIPTION CHK APP

DRAWING STATUS:

TENDER

CLIENT:

ARCHITECT:

PROJECT:

TITLE:

CHECKED: APPROVED:

1:100 SMU AAH

PROJECT NUMBER: DRAWN: DATE:

CBR1500200 CAD OCT 2015

DRAWING No: REV:

E105

© WSP Buildings Pty Ltd.

L7L7 L7 L7PIR-3

L3 L7

L3

L7L8 L8 L8 L8 L8 L8 L8

IR-DB- RS.GN/ L15

GRC- L2

DB- RS.GN/ L14GRC- L1 Area

L26 PIR-3 PIR-3

L7

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PIR-1

PIR-1PIR-1

L1

L1PIR-2

L1

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L4 L4

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PIR-1

L4 L4 L1A L1A L1A L1A

L7

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L1A L1A L1A L1A L1A

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L8 L8 L8 L8 L8 L8 L8 L8

L8 L8 L8 L8 L8 L8 L8 L8

L8 L8 L8 L8 L8 L8

L7 L7 L7 count:DB- RS.GS.E/ L16

L7 L7

DB- RS.GS.E/ L17

L4

L1

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L4 L4 L4

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L8 L8 L8 L8 L8 L8 L8 L8 L8 L8

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PIR-1

L8 L8 L8 L8 L7 L8 L8 L8 L8 L8

L7 PIR-1 L7

LEVEL 1, 3 HOBART PLACE, GPO BOX 1551, CANBERA, AUSTRALIATEL:+61 2 62019600FAX: +61 2 62019666

http://www.wspgroup.comGROUND FLOOR LIGHTING LAYOUT - SHEET 5

ELECTRICALSERVICES

SCALE @ A1:

A

Attachment 1 for Case Study E

Page 42

A

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4 5 6 7 8

PIR-1

PIR-1 PIR-1

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L27L1

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L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8



L7



L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8 L8

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DB-RS.GN/L9GRB-L8

DB-RS.GN/L10GRB-L9

DB-RS.GN/L12GRB-L11

DB-RS.GN/L1GRA-L12

PIR-1

SP3

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DB-RS.GN/L2GRB-L1

DB-RS.GN/L3GRA-L2

DB-RS.GN/L4GRB-L3

DB-RS.GN/L11GRB-L10

DB-RS.GN/L5GRB-L4

DB-RS.GN/L6GRB-L5

DB-RS.GN/L7GRB-L6

DB-RS.GN/L8GRB-L7

DB-RS.GN/L13GRB-L12

DB-RS.GN/L16GRE-L2

SP3

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DB-H.G/LSGRA-L11/LC7

DB-RH/VS/SS/L10GRA-L12/LC7

DB-RH/VS/SS/L8GRA-L11/LC7

SP1

DB-HG/L9GDE-L2/LC3

DB-RH/VS/SS/L9GDE-L2/LC7

DB/RH/VS/SS/L9GDE-L2/LC2

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L39/E L39/E

DB-RS.GN/L21GRE-L12

DB-RS.GN/L20GRE-L11

DB-RS.GN/L18GRE-L9

DB-RS.GN/L19GRE-L10

DB-RS.GN/L17GRE-L8

DB-O.G/L20GDF-L1/LC2

NDRAWING STATUS:

CLIENT:

ARCHITECT:

PROJECT:

TITLE:

CHECKED: APPROVED:

PROJECT NUMBER: DATE:

DRAWING No: REV:

© WSP Buildings Pty Ltd.

SCALE @ A1:

DO NOT SCALE

REV DATE BY CHK APPDESCRIPTION

DRAWN:

http://www.wspgroup.comDRAW

ING

CRE

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IN R

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.

TENDER

ELECTRICAL SERVICESGROUND FLOOR LIGHTING LAYOUT - SHEET 4

1:100 SMU AAH

CBR1500200 CAD OCT 2015

AA 06.11.15 DKN 100% TENDER ISSUE SMU AAH E104LEVEL 1, 3 HOBART PLACE, GPO BOX 1551, CANBERA, AUSTRALIATEL:+61 2 6201 9600 FAX: +61 2 6201 9666

FOR CONTINUATION REFER TO DRG. E105

FOR

CONT

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ION R

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TO

DRG.

E101

1. FOR GENERAL NOTES & LEGEND REFER TO DRAWING E000.2. 'SP3' SWITCH PANELS TO SWITCH THE NEAREST BANK OF

COMPACTUS LIGHTING. REFER TO DRAWING E900 FOROPERATION DETAIL

NOTES:

Area included in thiscase study(continues onsecond sheet)

P2

P1 P3 P2P3

3. PROVIDE PENDANTS IN SS1/SS2. SUSPENSION HEIGHTS TOBE CONFIRMED WITH ARCHITECT AND/OR LIGHTINGDESIGNER BEFORE INSTALLATION. REFER TOARCHITECTURAL DRAWINGS FOR SETOUT OF LIGHTS

4. CABLING FOR LUMINAIRES IN ROOMS WITH NO CEILING ARE TO BE CAST THROUGH SLAB TO SURFACE MOUNTED LUMINAIRES. ALLOW FOR WIRING. 5. SP1 SWITCHES TO TURN ON/OFF LUMINAIRES. REFER TO E900 FOR OPERATION DETAIL FOR EACH ROOM.6. SP2 SWITCHES TO DIM LUMINAIRES. REFER TO E900 FOR

OPERATION DETAIL FOR EACH ROOM. 7. ALL EMERGENCY LUMINAIRES TO BE CONNNECTED BACK TO

THE CENTRAL MONITORING SYSTEM.

1,460.2 sq m

Area1460m2

Luminairecount:L8: 150L7: 39

Page 43

NCC Part J6 Revisions Case Study F: Laboratory BackgroundThis case study is one of a series intended to a take a space within a building that currently complies with Part J6 of the National Construction Code and then look at the changes that would be required in order to comply with NCC 2019. The purpose is to evaluate if the draft DTS Illumination Power Densities and luminaire efficacies, control factors and other suggested provisions for 2019 are practical and appropriate.

ABOUT THE SPACE


Withheld

Lighting consultants WSP Specialist Lighting

Building classification Office areas: Class 5 Laboratory areas: Class 8

Space type Laboratory – artificially lit to an ambient level of 400 lx or more

Completion date Planned construction completion approximately June 2018. Currently pre-construction

Space Size 79 Meters squaredProposed or achieved environmental certifications and status

N/A

Page 44


- Client requirements: Meet relevant Australian Standards

- Installed wattage: 434 W

- Area in square metres: 79 m2

- Illumination Power Density achieved as per NCC 2016 requirements (includingadjustments for controls or Room Aspect Ratio) :25.5 W/m2 (12W/m2, with Room Aspect Ratio adjustment gives 17.8W/m2,adding PIR control adjustment gives 25.5 W/m2)

- Luminaire number and type : L4: Fagerhult Allfive LED, 31W, quantity 14


Power/output (lumens per watt): 138 lm/W

Colour temperature: 4000K

Beam angle:

Beam direction: Direct (down only)

Beam distribution: Diffuse

- Controls Details (if any):Integrated microwave ‘e-Sense Detect’ sensor, with master luminaire controlling

Page 45

Describe the overall planned or achieved NCC 2016 compliance method for the building andits components

Used the DTS Provisions


The design complies with the proposed 2019 requirement of 6 W/m2, therefore no changes to the design would be required


Nil

Page 46


The laboratory relating to this design was a simple arrangement with no shelving above the laboratory benches. Shelving can be common above benches, and would have the effect of increasing the required lighting power density to combat the additional shadowing. The laboratory used in this example should therefore be taken as a best-case scenario, and it is likely that other laboratories would have higher power requirements.

ABCB Comment:Laboratories with high lighting requirements should use the IPD listed in the notes to table J6.2a relevant to the targeted lux levels. Indeed in any scenario where a higher lux level is justified on the basis of the tasks that are to be completed or to meet the needs of people with a vision impairment these notes should be used, even if the space type is listed in the table.

Attachments• 2016 and 2019 Luminaire layout

Page 47

Room used in this case study

Attachment 1 for Case Study F

Page 48

NCC Part J6 Revisions Case Study G: Retail/ Circulation Background


ABOUT THE SPACE


Withheld

Lighting consultants WSP

the NCC) Building classification

Note, the changes only relate to Class 2 common areas, Class 3 buildings and Class 5 to 9 buildings (as described in Part A3 of Volume One of the NCC)

Space type Retail and Circulation Space

Completion date Oct 2017Space Size 1,100 Meters squaredProposed or achieved environmental certifications and status

N/A

Page 49


- Client requirements, 240lux (maintained average)

- Installed wattage, 6,720 Watts

- Area in square metres, 1100


adjustments for controls or Room Aspect Ratio) - 6.11W/m2


: Down lights – 58 0ff recessed down lights

: Linear – 220m cove light



Down lights – 2x30W @ 2x3,617lm (source, initial)

Linear – 14.4W/m @ 1,100lm/m (source, initial)

Colour temperature

Down lights – 3,000K

Linear – 4,000K

Beam angle

Down lights – 2 x 30o

Linear – 120o

Beam direction

Down lights – Down

Linear – Concealed in cove

Beam distribution

Down lights – Symmetrical

Linear - Symmetrical


Down lights & Linear –

Electronic gear

Page 50



DTS Provisions used


: Down lights only – 58 0ff recessed down lights

- Luminaire technical details


Down lights – 2x30W @ 2x3,617lm (source, initial)

Colour temperature

3,000K

Beam angle

2 x 30o

Beam direction

Down

Beam distribution

Symmetrical




Temperature)

: 2.95W/m2

Page 51



Given the deletion in the cove system there would be savings to the overall scheme as

the architectural detail would be simpler and savings in material and labour could be

significant.

Current and proposed NCC Section J

This case study is for a retail circulation space which is also used as a retail space.

The client specifically asked for the space to be illuminated to allow for kiosks and the

like within the circulation areas.

The design delivered under the provisions of the current and proposed NCC for this

type of retail application permits designers to highlight and express architectural

features by means of adding visually stimulating elements to the space thereby

enhancing interest and visual appeal.

ABCB CommentThis is an interesting space in that it is both a circulation space (a requiring a low IPD) and a retail space (with much higher allowable IPD). In instances such as these, it is the responsibility of the certifying authority to determine the primary use of each space. In this instance, if the circulation space were actually determined to be retail space, compliance with the proscribed IPD would be achieved without removing the cove lights.

Attachments• Images of the space• 2016 and 2019 Luminaire layout

Page 52

Attachment 1 for Case Study G

Page 53

2 X30W 3000K LED CEILINGRECESSED DOWNLIGHT WITHREMOTE GEAR 60 DEGREE BEAMREGGIANI YORI TRIMLESS WHITE

DESIGN DELIVERED UNDER THE PROVISIONS OF THE PROPOSED NCC 2019 - TABLE J6.2a DELIVERED POWER DENSITY - 2.95w/m2

DESIGN DELIVERED UNDER THE PROVISIONS OF THE CURRENT NCC - TABLEJ6.2a DELIVERED POWER DENSITY - 6.10w/m2

14.4W/m 4000K LED LUMINAIRE INARCHITECTURAL COVE INEXTRUDED ALUMINIUM CHANNELAND DIFFUSER TO YIELD 120DEGREE BEAM AND REMOTE GEARSOLUS LED STRIP4K

L E G E N D

Attachment 2 for Case Study G

Page 54


Annata69 Willoughby Rd, Crows Nest NSW 2065

NCC Part J6 Revisions Case Study H: Restaurant 1

BackgroundThis case study is one of a series intended to a take a space within a building that currently complies with Part J6 of the National Construction Code and then look at the changes that would be required in order to comply with NCC 2019. The purpose is to evaluate if the draft DTS Illumination Power Densities and Luminaire efficacies, control factors and other suggested provisions for 2019 are practical and appropriate.

ABOUT THE SPACE

Lighting consultants LightStudioMG Pty LtdBuilding classification Class 6

Space type Restaurant

Completion date Completion date late 2015Space Size 91m2


N/A

Page 55


- Client requirementsThe completed restaurant in Crows Nest is made up of a split level space – entrylevel is the bar and upper level is the dining space. Only the front of the restaurantis glazed exposed to the ingress of western sun and daylight.The interior of the restaurant is rustic and generally dark in appearance withexposed brick and wire mesh for bottle displays finish.Based on the following criteria a flexible lighting system was requested:1. Provide high enough levels of light during daytime when daylight / sunlightingress was significant2. Modulate lighting to cater for various time of day (as per point 1) allowingdimming of lighting for night-time settings3. As with all most restaurants, table setting do change as such flexible lighting isneeded to cater for the various table settings.4. Lighting needed to express the architectural features of the space, joineryelements and provide a welcoming ambiance

- Installed wattage:2,658W

- Area in square metres:91m2

- Illumination Power Density achieved as per NCC 2016 requirements (includingadjustments for controls or Room Aspect Ratio)2,715W

- Luminaire number and typeRefer accompanying Luminaire Schedule - Annata Restaurant LightingSchedule 2016 AS DESIGNEDLuminaire technical details (including where appropriate)Refer accompanying Luminaire Schedule Annata Restaurant LightingSchedule 2016 AS DESIGNED

- Controls Details (if any)Lighting control – Dynalite control system, mainly phase dim fittings.

Page 56



Compliance achieved via Deemed to Satisfy.

The current design was retested with the proposed NCC 2019 codes. The significantly reduced Illumination Power Density and Adjustment Factors (including the new C Colour Temperature Adjustment Factor in Table J6.2c) were applied within the calculation.Refer accompanying Luminaire Schedule - Annata Restaurant IPD Calculation 2019 AS DESIGNED. To achieve compliance with NCC 2019 the space was redesigned. Refer relevant schedule in the next table for information.Luminaire number and typeRefer accompanying Luminaire Schedule - Annata Restaurant Lighting Schedule 2019 REVISED DESIGN

Luminaire technical detailsRefer accompanying Luminaire Schedule - Annata Restaurant Lighting Schedule 2019 REVISED DESIGN

Controls Details (if any)Lighting control – Dynalite control system, mainly phase dim fittings.

Illumination Power Density achieved as per NCC 2019 requirements (including adjustments for Controls, Room Aspect Ratio, Colour Rendition or Colour Temperature)Refer accompanying IPD Calculation - Annata Restaurant IPD Calculation 2019 REVISED DESIGN

Page 57



As designed = $28,513Revised design = $23,434The above costs are associated with the supply of light fittings only, which achieved a reduction in materials. However, there would be an increase in installation costs from going from 3-circuit track to individual surface mounted downlights due to the quantity of fittings vs track.

Attachments:1. Luminaire schedule - as designed 2016 NCC provisions2. IPD Calculations as designed - 2016 NCC provisions3. IPD Calculations as designed - 2019 NCC provisions4. Luminaire schedule re-design 2019 NCC provisions5. IPD calculations - re-design to 2019 NCC provisions

The following changes were required for the design to pass Section J 2019:1. Delete track, use ceiling mounted down lights & pendants2. Delete linear led strips (decorative) in toilets (AL3)3. Delete linear led strips (decorative) from along walls in bar & restaurant (AL2)4. Delete linear led strips (decorative) from bar front (AL2)5. Delete linear led strips (decorative) from window reveals in restaurant (aAL2)

As with the CBA case study, the primary driver to change the design was the changing requirements related to track lighting.

Page 58

LUMINAIRE SCHEDULE

PROJECT NAME Annata Restaurant

PROJECT NUMBER P0177_SLD_2011

REVISION -

DATE 6/02/2018 LOADS AS DESIGNED - PASSED NCC 2016 BUDGET

BAR RESTAURANT MALE TOILETS FEMALE TOILETS TOTALS

CODE DESCRIPTION DIMMING Colour FITTING ORDER CODE SUPPLIER WATTAGE QTY SUB-TOTAL LOAD QTY SUB-TOTAL

LOAD QTY SUB-TOTAL LOAD QTY SUB-TOTAL

LOAD QTY TOTAL LOAD m UNIT AUD TOTAL AUD

AL1 Linear LED strip (2700K, 1260lumens/m) 1-10v Aluminium KAPPA LiTesource & ControlsMatt Roworth 0423 486 309 14.4 17.8 256.32 0 0 0 0 0 0 17.8 256.32 m $ 80.00 $ 1,424.00

AL2 Linear LED strip with diffuser (2700K, 1560lumens/m) 1-10v Aluminium ALPHA LiTesource & ControlsMatt Roworth 0423 486 309 19.2 14.1 270.72 9 172.8 0 0 0 0 23.1 443.52 m $ 140.00 $ 3,234.00

AL3 Linear LED strip with diffuser (2700K, 1560lumens/m) SWITCHED Aluminium ALPHA LiTesource & ControlsMatt Roworth 0423 486 309 19.2 0 0 0 0 2 38.4 3 57.6 5 96 m $ 135.00 $ 675.00

DL1 Recessed fixed pin hole downlight (2700K, 1300lumens 15deg) 1-10v Black FPH LiTesource & ControlsMatt Roworth 0423 486 309 12 8 96 0 0 0 0 0 0 8 96 $ 135.00 $ 1,080.00

DL2 Recessed fixed pin hole downlight (2700K, 1300lumens 25deg) 1-10v Black FPH LiTesource & ControlsMatt Roworth 0423 486 309 12 0 0 3 36 0 0 0 0 3 36 $ 135.00 $ 405.00

DL3 Recessed fixed pin hole downlight (2700K, 400lumens 34deg) 1-10v Black FPH LiTesource & Controls 6 10 60 0 0 0 0 0 0 10 60 $ 136.00 $ 1,360.00Matt Roworth 0423 486 309

DL4 Recessed fixed pin hole downlight (2700K, 1300lumens 25deg) SWITCHED White APH LiTesource & ControlsMatt Roworth 0423 486 309 12 0 0 0 0 5 60 4 48 9 108 135.00$ $ 1,215.00

DL5 Recessed fixed pin hole wall washer (2700K, 1300lumens 60deg) SWITCHED White WPH LiTesource & ControlsMatt Roworth 0423 486 309 12 0 0 0 0 0 0 2 24 2 24 135.00$ $ 270.00

DL6 Recessed adjustable pin hole downlight (2700K, 1300lumens 25deg) 1-10v Black APH LiTesource & ControlsMatt Roworth 0423 486 309 12 0 0 12 144 0 0 0 0 12 144 135.00$ $ 1,620.00

PL1 ID selected pendant (e27 8W LED) + track adaptor PHASE DIM ID selected ID selected ID selected 8 0 0 0 0 0 0 0 0 3 24 180.00$ $ 540.00 PL1A ID selected pendant (e27 8W LED) PHASE DIM ID selected ID selected ID selected 8 0 0 5 40 0 0 0 0 5 40 180.00$ $ 900.00 PL2 DELETEDPL3 Decorative LED pendant (2700K, 300lumens) SWITCHED ID selected ID selected ID selected 6 0 0 0 0 0 0 3 18 3 18 120.00$ $ 360.00

SL1 Track mounted spot light (2700K, 400lumens 25deg) PHASE DIM Black RS-GS10-3C-BLK JSB 7.5 0 0 0 0 0 0 0 0 24 180 200.00$ $ 4,800.00 Dudley Hewitt 9571 8800

SL2 Wall mounted spot light (2700K, 600lumens 10deg) SWITCHED Black RDD60 SURF LiTesource & Controls 6 4 24 0 0 0 0 0 0 4 24 350.00$ $ 1,400.00 Matt Roworth 0423 486 309TS1 - 6m DELETED 0 0

TS2 - 6.5m Suspended 3-circuit 240v track PHASE DIM Black SUSPENDED TRACK JSB 100 6 600 0 0 0 0 0 0 6 600 m 90.00$ $ 540.00 Dudley Hewitt 9571 8800

TS3 - 7m Suspended 3-circuit 240v track PHASE DIM Black SUSPENDED TRACK JSB 100 7 700 0 0 0 0 0 0 7 700 m 90.00$ $ 630.00 Dudley Hewitt 9571 8800

UL1 Inground fixed uplight for concrete mounting (2700K, 600lumens 10deg) SWITCHED Black RDD60-DECO LiTesource & Controls 6 2 12 0 0 0 0 0 0 2 12 350.00$ $ 700.00 Matt Roworth 0423 486 309

1-10v controller 12 channel 1-10V controller n/a DDBC1200 DynaliteDario Marcon 8338 9977 0 0 0 0 2 0 900.00$ $ 1,800.00

Relay controller DDRC1220 12 channel Relay controller n/a DDRC1220 DynaliteDario Marcon 8338 9977 0 0 0 0 3 0 900.00$ $ 2,700.00

Phase dim controller 3 channel 10A/ch Trailing Edge dimmer to suit 3 circuit track n/a DTE310 DynaliteDario Marcon 8338 9977 0 0 0 0 1 0 2,200.00$ $ 2,200.00

Time clock Time clock n/a DTC001 DynaliteDario Marcon 8338 9977 0 0 0 0 1 0 250.00$ $ 250.00

Keypad 8 button preset panel stainless steel finish Stainless Steel DPN981 DynaliteDario Marcon 8338 9977 0 0 0 0 1 0 410.00$ $ 410.00

AREA LOAD 2019.04 AREA LOAD 392.8 AREA LOAD 98.4 AREA LOAD 147.6 TOTAL LOAD 2861.84 TOTAL AUD $ 28,513.00

LightStudioMG Pty Ltd ABN: 83 603 013 958E | [email protected] W | www.lightstudiomg.com T | +61 416 190 679

Attachment 1 for Case Study H

Page 59


PROJECT NAME

PROJECT NUMBER

REVISION

DATE

CALCULATION

ANNATA RESTAURANT

P0177_SLD_4011

Rev -

6.02.2018

ROOM ASPECT RATIO ADJUSTMENTS CONTROL ADJUSTMENTS LOAD VALUES


Room Aspect Ratio

A/(HxC)


Factor

if <1.5 = 0.5 + (RAR/3)

if >1.5 = 1


(W/sqm) Allowance

Refer to Table 6.2a




Refer to Table 6.2b


(B)

Refer to Table 6.2b

Total Adjustment

Ax(B+[(1-B)/2])



Permitted Load (W)

Actual Load (W)

Balance (W)

Area (A)

Height (H)

Perimeter (C)

Description Value Description Value

Bar 41.1 m²

33.4 m²

7.6 m²

9.1 m²

3.8 m

2.9 m

2.6 m

2.7 m

26 m

24 m

11 m

14 m

0.41

0.47

0.26

0.24

0.64

0.66

0.59

0.58

18

18

6

6

28.29

27.35

10.21

10.36

Programmable dimming




0.85

0.85

0.85

0.85

Manual dimming

Manual dimming

Motion Detector

Motion Detector

0.95

0.95

0.9

0.9

0.83

0.83

0.81

0.81

34.14

33.01

12.64

12.83

1401.56

1101.38

95.57

116.65

2019 W -617.4

708.6

-2.8

-31.0

Restaurant 393 W

Male Toilets 98 W

Female Toilets 148 W

Total area 91.1 m² 2715 W 2658 WBALANCE 57 W


Page 60


PROJECT NAME

PROJECT NUMBER

REVISION

DATE

CALCULATION

ANNATA RESTAURANT

P0177_SLD_4012

Rev -

6.02.2018

Room Aspect Ratio


Factor

if <1.5 = 0.5 + (RAR/3)

if >1.5 = 1


(W/sqm) Allowance

Total Adjustment from 6.2b

Area (A)

Height (H)

Perimeter (C)

Description Value Description Value Description Value

BarRestaurantMale ToiletsFemale Toilets

41.1 m²33.4 m²7.6 m²9.1 m²

3.8 m2.9 m2.6 m2.7 m

26 m24 m11 m14 m

0.410.470.260.24

0.640.660.590.58

6622

9.439.123.403.45

Motion DetectorMotion Detector

11

0.40.4

1111

1.001.000.400.40

CCT <3000KCCT <3000KCCT <3000KCCT <3000K

1.21.21.21.2

11.3210.9410.2110.36

464.62365.1177.1794.19

15101 W -14636.4-12.9-15.8-47.8

378 W93 W142 W

Total area 91.1 m² 1001 W 15714 WBALANCE -14713 W

*NOTES:1. Wording in note 3 below table 6.2a is ambiguous. The assumption has been made that the adjustment factors in tables J7.2b can be applied if the inclusion of the control device is over and above what is required in J6.3. The motion detectors were not required for the toilets, therefore the adjustment factor has been applied2. Reference to 8am -7pm time limitation in the notes for J6.2b has been ignored, as it does not explain how to apply the adjustment factor only between these specific hours or how this would work for a space that is also used outside these hours, such as a restaurant.3. Wording in the desciption column of table 6.2c is ambiguous. The assumption has been made that the listed CRI or CCT adjustment factor can be applied to all spaces where the respective CRI or CCT have been used , not just spaces where the CRI or CCT is required for Green Star or another reason.





A/(HxC)Refer to

Table 6.2a


Density (W/sqm)

Adjusted with RAR


Refer to Table 6.2b


(B)

Refer to Table 6.2bAx(B+[(1-

B)/2])

Adjustment Factor 3

Refer to Table 6.2c



Permitted Load (W)

Actual Load (W)

(*note 4)

Balance (W)



Page 61

LUMINAIRE SCHEDULE

PROJECT NAME Annata Restaurant

PROJECT NUMBER P0177_SLD_2013

REVISION -

DATE 6/02/2018 REVISED DESIGN LOADS - PASSED NCC 2019 BUDGET

CODE DESCRIPTION DIMMING Colour FITTING ORDER CODE SUPPLIER WATTAGE QTY SUB-TOTAL LOAD QTY SUB-TOTAL

LOAD QTY SUB-TOTAL LOAD QTY SUB-TOTAL

LOAD QTY TOTAL LOAD m UNIT AUD TOTAL AUD

AL1 Linear LED strip (2700K, 1260lumens/m) 1-10v Aluminium KAPPA LiTesource & ControlsMatt Roworth 0423 486 309 14.4 17.8 256.32 0 0 0 0 0 0 17.8 256.32 m $ 80.00 $ 1,424.00

AL2 Linear LED strip with diffuser (2700K, 1560lumens/m) 1-10v Aluminium ALPHA LiTesource & ControlsMatt Roworth 0423 486 309 19.2 0 0 0 0 0 0 0 0 0 0 m $ 140.00 $ -

AL3 Linear LED strip with diffuser (2700K, 1560lumens/m) SWITCHED Aluminium ALPHA LiTesource & ControlsMatt Roworth 0423 486 309 19.2 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 m $ 135.00 $ -

DL1 Recessed fixed pin hole downlight (2700K, 1300lumens 15deg) 1-10v Black FPH LiTesource & ControlsMatt Roworth 0423 486 309 11 8 88 0 0 0 0 0 0 8 88 $ 135.00 $ 1,080.00

DL2 Recessed fixed pin hole downlight (2700K, 1300lumens 25deg) 1-10v Black FPH LiTesource & ControlsMatt Roworth 0423 486 309 11 0 0 3 33 0 0 0 0 3 33 $ 135.00 $ 405.00

DL3 Recessed fixed pin hole downlight (2700K, 350lumens 34deg) 1-10v Black FPH-MINI LiTesource & Controls 5 10 50 0 0 0 0 0 0 10 50 $ 136.00 $ 1,360.00Matt Roworth 0423 486 309

DL4 Recessed fixed pin hole downlight (2700K, 1300lumens 25deg) SWITCHED White APH LiTesource & ControlsMatt Roworth 0423 486 309 11 0 0 0 0 5 55 4 44 9 99 135.00$ $ 1,215.00

DL5 Recessed fixed pin hole wall washer (2700K, 1300lumens 60deg) SWITCHED White WPH LiTesource & ControlsMatt Roworth 0423 486 309 11 0 0 0 0 0 0 2 22 2 22 135.00$ $ 270.00

DL6 Recessed adjustable pin hole downlight (2700K, 1300lumens 25deg) 1-10v Black APH LiTesource & ControlsMatt Roworth 0423 486 309 11 0 0 12 132 0 0 0 0 12 132 135.00$ $ 1,620.00

PL1 ID selected pendant (e27 8W 2700K LED) + surface track mounted PHASE DIM ID selected ID selected ID selected 8 3 24 0 0 0 0 0 0 3 24 180.00$ $ 540.00 PL1A ID selected pendant (e27 8W 2700K LED) PHASE DIM ID selected ID selected ID selected 8 0 0 5 40 0 0 0 0 5 40 180.00$ $ 900.00 PL2 DELETEDPL3 Decorative LED pendant (2700K, 300lumens) SWITCHED ID selected ID selected ID selected 6 0 0 0 0 0 0 3 18 3 18 120.00$ $ 360.00

SL1 Track

TS2 - 6.5m

surface mounted downlight (2700K, 400lumens 25deg) PHASE DIM Black RS-GS10-3C-BLK JSB 7.5 24 180 0 0 0 0 0 0 24 180 200.00$ $ 4,800.00 Dudley Hewitt 9571 8800

SL2 Wall mounted spot light (2700K, 600lumens 10deg) SWITCHED Black RDD60 SURF LiTesource & Controls 6 4 24 0 0 0 0 0 0 4 24 350.00$ $ 1,400.00 Matt Roworth 0423 486 309TS1 - 6m DELETED 0 0

TS2 - 6. Suspended 3-circuit 240v track PHASE DIM Black SUSPENDED TRACK JSBDudley Hewitt 9571 8800 7200 0 0 0 0 0 0 0 0 0 0 m 90.00$ $ -

TS3 - 7m Suspended 3-circuit 240v track PHASE DIM Black SUSPENDED TRACK JSBDudley Hewitt 9571 8800 7200 0 0 0 0 0 0 0 0 0 0 m 90.00$ $ -

BAR RESTAURANT MALE TOILETS FEMALE TOILETS TOTALS

UL1 Inground fixed uplight for concrete mounting (2700K, 600lumens 10deg) SWITCHED Black RDD60-DECO LiTesource & Controls 6 2 12 0 0 0 0 0 0 2 12 350.00$ $ 700.00 Matt Roworth 0423 486 309

1-10v controller 12 channel 1-10V controller n/a DDBC1200 DynaliteDario Marcon 8338 9977 0 0 0 0 2 0 900.00$ $ 1,800.00

Relay controller DDRC1220 12 channel Relay controller n/a DDRC1220 DynaliteDario Marcon 8338 9977 0 0 0 0 3 0 900.00$ $ 2,700.00

Phase dim controller 3 channel 10A/ch Trailing Edge dimmer to suit 3 circuit track n/a DTE310 DynaliteDario Marcon 8338 9977 0 0 0 0 1 0 2,200.00$ $ 2,200.00

Time clock Time clock n/a DTC001 DynaliteDario Marcon 8338 9977 0 0 0 0 1 0 250.00$ $ 250.00

Keypad 8 button preset panel stainless steel finish Stainless Steel DPN981 DynaliteDario Marcon 8338 9977 0 0 0 0 1 0 410.00$ $ 410.00

AREA LOAD 634.32 AREA LOAD 205 AREA LOAD 55 AREA LOAD 84 TOTAL LOAD 978.32 TOTAL AUD $ 23,434.00

LightStudioMG Pty Ltd ABN: 83 603 013 958E | [email protected] W | www.lightstudiomg.com T | +61 416 190 679


Page 62


PROJECT NAME

PROJECT NUMBER

REVISION

DATE

CALCULATION

ANNATA RESTAURANT

P0177_SLD_4013

Rev -

6.02.2018

Room Aspect Ratio


Factor

if <1.5 = 0.5 + (RAR/3)

if >1.5 = 1


(W/sqm) Allowance

Total Adjustment from 6.2b

Area (A)

Height (H)

Perimeter (C)

Description Value Description Value Description Value

BarRestaurantMale ToiletsFemale Toilets

41.1 m²33.4 m²7.6 m²9.1 m²

3.8 m2.9 m2.6 m2.7 m

26 m24 m11 m14 m

0.410.470.260.24

0.640.660.590.58

6622

9.439.123.403.45

Motion DetectorMotion Detector

11

0.40.4

1111

1.001.000.400.40

CCT <3000KCCT <3000KCCT <3000KCCT <3000K

1.21.21.21.2

11.3210.9410.2110.36

464.62365.1177.1794.19

634 W -169.4160.122.210.2

205 W55 W84 W

Total area 91.1 m² 1001 W 978 WBALANCE 23 W

*NOTES:1. Wording in note 3 below table 6.2a is ambiguous. The assumption has been made that the adjustment factors in tables J7.2b can be applied if the inclusion of the control device is over and above what is required in J6.3. The motion detectors were not required for the toilets, therefore the adjustment factor has been applied2. Reference to 8am -7pm time limitation in the notes for J6.2b has been ignored, as it does not explain how to apply the adjustment factor only between these specific hours or how this would work for a space that is also used outside these hours, such as a restaurant.3. Wording in the desciption column of table 6.2c is ambiguous. The assumption has been made that the listed CRI or CCT adjustment factor can be applied to all spaces where the respective CRI or CCT have been used , not just spaces where the CRI or CCT is required for Green Star or another reason.





A/(HxC)Refer to

Table 6.2a


Density (W/sqm)

Adjusted with RAR


Refer to Table 6.2b


(B)

Refer to Table 6.2bAx(B+[(1-

B)/2])

Adjustment Factor 3

Refer to Table 6.2c



Permitted Load (W)

Actual Load (W)

(*note 4)

Balance (W)


CHANGES REQUIRED TO PASS SECTION J 2019:DELETE TRACK, USE CEILING MOUNTED DOWNLIGHTS & PENDANTSDELETE LINEAR LED STRIPS (DECORATIVE) IN TOILETS (AL3)DELETE LINEAR LED STRIPS (DECORATIVE) FROM ALONG WALLS IN BAR & RESTAURANT (AL2)DELETE LINEAR LED STRIPS (DECORATIVE) FROM BAR FRONT (AL2)DELETE LINEAR LED STRIPS (DECORATIVE) FROM WINDOW REVEALS IN RESTAURANT (AL2)


Page 63

NCC Part J6 RevisionsCase Study I: Restaurant 2 Background


ABOUT THE SPACE


Withheld

Lighting consultants Electrolight


Space type Restaurant & Kitchen and food preparation

Completion date Completion May 20

Space Size Restaurant 508m2 + Kitchen and Food Prep 120m2 (Level 3) +200m2 (Basement)


NA

15

Page 64

and the mesh to ensure the correct amount of transparency and depth was achieved. If

Briefly describe the following for the space that currently complies with Part J6 of NCC 2016

Client requirements

The concept for the restaurant was designed around the idea of chiaroscuro, the use of strong contrasts between light and dark to create drama. The use of deep, sumptuous upholsteries, dark lacquered panelling and rich carpets provide a backdrop to the spotlit tables.

Strategically placed luminaires create sumptuous pools of light, focusing on the areas thatguests inhabit, allowing details such as the food presentation, table tops, bar and kitchen, to emerge from the reduced darker background. Electrolight collaborated on a number of bespoke decorative light fixtures for the restaurant, which help to set the mood.

One of the many challenges Electrolight faced when designing the lighting scheme was providing depth and highlight to the images drawn from the restaurant owner's cookbook, that form a critical focal backdrop to the dining room and cocktail bar.

We workshopped a design solution that involved a miniature linear LED projector with abi-symmetric beam optic located between the mesh and the print to graze up and down the artwork. The main challenge was balancing the quantity of light between the print

the mesh received too much light, the print receded into darkness.

•Installed wattage12,998W

•Area in square metresRestaurant 508m2 + Kitchen and Food Preparation 120m2 (Level 3) + 200m2(Basement). Total floor area = 828m2

•Illumination Power Density achieved as per NCC 2016 requirements (includingadjustments for controls or Room Aspect Ratio)Design met aggregate power density of Kitchen (6W/m2) and Restaurant (18W/ m2 + Adjustment Factor for a Programmable Dimming System) within the NCC 2016 requirements.

•Luminaire number and typeWithheld

•Luminaire technical details (including where appropriate)Withheld

•Power/output (lumens per watt) Typical LED downlights (Approximately 75lumens/W). LED Strip (Approximately 60 lumens/W)

•Controls Details (if any)DALI in restaurant

Page 65



•Luminaire number and typeDeletions of all decorative layers of light and some functional

• Luminaire technical details

§ Power/output (lumens per watt)

§ Colour temperature

§ Beam angle Beam direction

§ Beam distribution

• Controls Details (if any)Unchanged

• Illumination Power Density achieved as per NCC 2019 requirements (includingadjustments for Controls, Room Aspect Ratio, Colour Rendition or Colour Temperature)6Wm2 (+ Adjustment Factor for fixed dimming. Would previously have usedAdjustment factor for a Programmable Dimming System however this item has been removed as an option in NCC2019 + Adjustment factor for Room Aspect of 0.65) for a Restaurant and 4Wm2 for a Kitchen and Food Preparation area with no adjustment factors.

The changes to the lighting scheme that would be necessary to meet the conditions of the NCC 2019 (predominately a reduction from 18Wm2 to 6Wm2 for a Restaurant and a reduction from 8Wm2 to 4Wm2 for a Kitchen and Food Preparation area) include the following:

Significant deletions including the majority of decorative elements.

Decorative lighting elements include: LED strip to joinery including the bar bottle displays, waiters station lamp, bathroom vanity wall lights, Jelly mould wall lights, feature window pendants etc

DTS Method was used

Page 66

Provide estimates of any changes in construction costs between the 2016 version and the 2019 VERSIONS Including how these estimates were calculated, considering both materials and labour.


The following Options would achieve a light fitting supply cost saving of:

The Deletions equate to cost saving of approx. $182,000.

Page 67

Provide a written summary of any other significant variations or points of interest generated by the analysis. This might include a summary of design modifications to meet NCC 2019, challenges faced in achieving NCC 2019 compliance and any other expected costs or benefits (e.g. in relation to health, comfort, resilience, asset value, maintenance), and any lessons learnt.

Client direction was for the lighting to integrate with the interior design to create a world class restaurant experience where the food was undoubtedly the focus. The interior was predominately dark in tone with beautiful highlights created through artworks, furniture and detailing. Layers of illumination have been used to create a high end ambiance that is subdued whilst also providing a sense of drama and theatre. Artworks, joinery and detailing are complimented by integrated lighting solutions and custom luminaires add an additional layer of decoration to the space.

Reduced energy allowances nominated within the NCC 2019 results in the lighting needing to have a more purely functional task, which would result in all decorative lighting elements being removed.

The restrictions and consequent challenges would be further compounded by the fact that the Australian Standard light level recommendations for kitchens where not considered adequate by the client (world class chef) so additional illumination was required approx. 500+ lux average. In our experience this raised light level is quite common for kitchens in high end hospitality environments. The higher light level requirement and proposed reduction in energy allowances results in kitchen illumination being difficult to achieve.

The dark interior also restricts the possibility of reflected light within the space howeverrestaurants and bars often have a dark colour palette so this needs to be factored in to the energy allowance.

While there would be cost savings associated with the many light fitting deletions these should not be considered as beneficial as the client and design team would prefer that the lights fittings remain in the scheme (otherwise they would not have been included originally).

Also the above changes are based on using the Fixed dimming adjustment factor of 0.5 in lieu of a Programmable Dimming System. If this is not able to be used the changes would be far greater than what has been suggested.

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ABCB CommentThis case study maybe an example of where a performance solution is justified. In this instance a higher base Illumination Power Density than that specified in Table J6.2a for kitchens (4 W/m2) and restaurants (6W/m2) would appear to be justified. This is based on the need in this instance for highly accurate rapid tasks being completed in the kitchen where a target illuminance of 500 lux (above the 200 lux suggested in AS/NZS 1680.1) was specified, and the dark reflective surfaces of the restaurant decor. Both of these are listed in AS/NZS 1680.1 as circumstances where a higher illuminance level could be specified. If a Performance Solution were to be used, then the notes to table J6.2a could provide the higher a base IPD that would apply. This means that the lighting in the kitchen would probably be able to comply unmodified, and there would have been excess power that could have been added to that allowed the design in the dining.

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NCC Part J6 RevisionsCase Study J Restaurant 3

Background


ABOUT THE SPACE

Building name (if applicable) and address Withheld

Lighting consultants ElectrolightBuilding classification Class 6

Space typeFitout is comprised of Restaurant spaces, Corridors, Kitchen/Food Prep, Store, Plant

Completion date 1Q 2015Space Size 290 m2


N/A

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- Client requirements,

The owners provided a clear brief for the look they wanted. The Interior Designer created a canvas that hit the mark in a new-age offering of interior design, screaming for brushstrokes of light to bring it to life. These combined elements allowed us to develop a lighting approach which would work to capture the essence of the interior styling and give guests the a dining experience to match the fine cuisine. Responding to the client and interior brief, a clear lighting concept was developed. We aimed to achieve the following,

• light sources were to be concealed from view• luminaires detailed into the interior architecture with glare controlled• use of trimless fittings where possible to allow the interiors to shine• accent the bold monolithic elements of the interior space• create a sense of theatre and drama in the bar and kitchen (the stage)• a strong focus to illumination of the hero – “the food” (both prep and dining), as the

main purpose is to sell food• develop a flexible lighting control system that allowed for the venues changing

conditions from day to night, casual to intimate.• custom fitting design were needed. The small private dining rooms provided a great

opportunity do develop something special. While the general dining and bar spacewas left open to allow the architecture, mood and theatre to be the focus

• colour temperature concept was calculated and deliberate. Warm 2700K sourceswere used for general areas and accent lighting to the feature elements and natural

materials, while 3000K was used to illuminate the bar / kitchen ‘stage’ and dining tables. Food would present in accurate and magnificent colour with true colour rendering.

- Installed wattage

7092W (all spaces)

- Area in square metres

290m2 (all spaces)

- Illumination Power Density achieved as per NCC 2016 requirements (includingadjustments for controls or Room Aspect Ratio)Maximum Allowable Illumination Power Load = 7723W. Installed Wattage 7092W


Withheld


Withheld

- Controls Details (if any)DALI Programmable Control System with timeclock control

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3


Describe the changes to the same space that would be required in order to comply with NCC

2019 (assume client requirements are unchanged)

As the specified luminaires are already highly efficient at delivering the intended effect, the only way to ensure compliance is to remove feature lighting elements, including:

•Lighting to timber feature screens in main restaurant (Type L11)

•Wall wash lighting to the feature marble wall behind the bar (Type L3)

•Wall wash lighting to the concrete bulkhead above the bar (Type L10)

•Deletion of Cove lighting in the private dining rooms (Type L6)

•Controls Details (if any)No changes. There is no daylight and motion sensors are not suitable for restaurant operation

Illumination Power Density achieved as per NCC 2019 requirements (including adjustments for Controls, Room Aspect Ratio, Colour Rendition or Colour Temperature):

•Maximum Allowable Illumination Power Load = 2687W. Installed Wattage2436W.


DTS Method was used


Savings are as follows:

•Type L11 - $795 ex GST

•Type L3 - $10,950 ex GST

•Type L10 - $4,325 ex GST

•Type L6 - $6,300 ex GST.

Grand Total = $22,370 ex GSTPage 72


Reduced energy allowances nominated within the NCC 2019 restricts the ability to use indirect and decorative illumination to highlight attractive architectural elements that are essential in creating the necessary restaurant ambiance.

The resulting design lacks drama, visual cohesion and would certainly have not created a visual environment worthy of any accolades.

One thing of note is that the changes to the track lighting allowances made a big difference to the outcome. This restaurant has a fixed track lighting layout, which will notbe changed throughout the life of the fit-out. The track lights are very low wattage (2-6W), meaning the 2019 more accurately representing the power consumed by the track lighting (as opposed to the NCC 2016 which requires 100W/m of track).

ABCB CommentBased on the results of this and other case studies that utilize track lighting in their design, the ABCB recognizes that the proposals related to track lighting may need to be amended.

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Withheld

NCC Part J6 Revisions Case Study K: Restaurant 4 Background


ABOUT THE SPACE

Lighting consultants WSP Specialist LightingBuilding classification Class 6a

Space type Restaurant

Completion date 10/2017Space Size 146 m squaredProposed or achieved environmental certifications and status

N/A

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2

washer

dimmable.

- Flexible space for both day-time and night-time dining. At night, atmospheric lowlight with pin-spot highlights to tables to showcase food. Specific lighting to artworkcollection, display and feature elements. Display grill with fire and dark burnt woodfinishes.

- 2517 W

- 146 M squared

- 15W / square metre


2 Recessed adjustable wall washer

10 watts; 2700K CCT; 60 degree beam angle; 90+ CRI; 75 lumens/watt; DALI dimmable.

6

spotlight

dimmable.

6 Surface mounted spotlight

6 watts; 2700K CCT; 33 degree beam angle; 90+ CRI; 70 lumens/watt; DALI dimmable.

metres spotlights dimmable.

25 metres

Track mounted spotlights

100W / metre allowance; various beam angles from 4 degree to 40 degree; 90+ CRI; 90 lumens/watt; DALI dimmable.

11 Downlight

dimmable.

11 Downlight 2 watts; 2700K CCT; 35 degree beam angle; 80+ CRI; 90 lumens/watt; DALI dimmable.

4 Downlight dimmable.

4 Downlight 6 watts; 2700K CCT; 40 degree beam angle; 85 CRI; 62 lumens/watt; DALI dimmable.

6 adjustable spotlight

dimmable.

6 Recessed adjustable spotlight

6 watts; 2700K CCT;20 degree beam angle; 80+ CRI; 80 lumens/watt; DALI dimmable.

8 downlight

dimmable.

8 Recessed downlight 10 watts; 2700K CCT;44 degree beam angle; 90+ CRI; 100 lumens/watt; DALI dimmable.

metres strip

dimmable.

46 metres

Linear LED strip 17 watts; 2700K CCT; diffuse light distribution; 80+ CRI; 80 lumens/watt; DALI dimmable.

3 pendant

dimmable.

3 Decorative pendant 60 watts; 2700K CCT; diffuse light distribution; 80+ CRI; 80 lumens/watt; DALI dimmable.

6 light

dimmable.

6 Decorative wall light 12 watts; 2700K CCT; diffuse light distribution; 80+ CRI; 80 lumens/watt; DALI dimmable.

Luminaire Type

Luminaire DetailNumber

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dimmable.

- The proposed change in terms of reduction in illumination power density from 18W/M2 to 6 W/M2 would have a significant impact on the lighting design outcome. Inthis case study the restaurant allowable IPD with 2019 proposed adjustment factorswould be a combination of 11w/m2 (RAR of 0.6 and CRI of 1.1 applied) to thedouble height space and 6.6w/m2 for single height space (RAR adjustment factordoes not apply to this single height space)

- It would be difficult/impossible to meet the client’s requirements for flexibility oftable settings and day to night use of the restaurant.

- The proposed changes would mean a significant reduction in luminaire types andquantities throughout and would likely require a blanket lighting approach toachieve the proposed illumination power density requirements.

- The proposed illumination power density would require the removal or a significantreduction of track lighting. This would not meet the client requirements for flexibilityin table settings or artworks from the collection over time. Note the 2019 proposedadjustment factors for track lighting is likely to negatively impact the IPD allowancewhere DALI or 1 circuit track is used.

- Light layering would be reduced significantly and some layers may need to beremoved completely (in this case track lighting, cove lighting or decorativependants/ wall lights). This impacts on the restaurant identity and atmosphere,client flexibility and guest comfort.

- The interior design for this particular restaurant has mostly dark finishes, requiringhigh light levels during the day to balance the transition from the bright exteriorperimeter to darker interior. Lower light output luminaires are not an option in thiscase.

- Controls unchanged. Programmable (eg. day and night scenes) and DALI

Use of DTS provisions including adjustment factors as per Table J6.2a 3 room aspect ratio and J6.2b programmable dimming system.

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Provide estimates of any changes in construction costs between the 2016 version and the

2019 version

Provide a written summary of any other significant variations or points of interest generated by

the analysis

N/A

See above.

Attachments• Images of the space.• 2016 and 2019 Luminaire layout

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Attachment 1 for Case Study K

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NCC Part J6 Case Study - Restaurant 24.01.2018

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Lighting Design to NCC Part J6 2015


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remove cove lighting

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NCC Part J6 Case Study - Restaurant 24.01.2018

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Possible removal of some track lighting and replacement with fixed adjustable spotlights

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Note, removal of cove lighting means feature finishes are not highlighted and the space is not framed with light. Removal of track reduces flexibility and does not provide for customer requirements.

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Lighting Design to proposed NCC Part J6 2019

part j6 energy efficiency provisions for commercial building lighting

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