1. LIGHTING FOR LIVING Connected Home Conference 2011

2. LIGHTING FOR LIVING TODAY TODAY What are the new requirements and why ? What do they really mean for the home owner? Optimal versus minimal outcomes? Is the day of the Down Light gone?

3. LIGHTING FOR LIVING WHY ARE WE DOING THIS? The Building Code of Australia. Now the National Construction Code or NCC Introduced Regulations detailing energy efficiency requirements Commercial Buildings 2006 Residential was introduced in Victoria from 1 May 2011 Comprehensive Strategy aimed at All Buildings throughout Australia To address factors affecting global warming

4. LIGHTING FOR LIVING WHY REGULATE? Why Regulate? Growing Building Energy Sector New residential market $2.4 Billion P.A Renovation market $2.5 Billion P.A Adding houses with poor energy efficiency means GHGE continue to increase & impact is extended to the next generation.

5. LIGHTING FOR LIVING ENERGY EFFICIENCY The BCA (NCC) is designed to promote the prudent use of energy by Regulatory measures Voluntary choices It uses building design to achieve this Incorporates a lot more than electrical

6. LIGHTING FOR LIVING ADMINISTRATION of the BCA Federally Enacted but administered through the individual State and Territory Building Acts Building Regulations For example in Victoria it is the Building Commission BCA also calls up relevant Australian Standards

7. LIGHTING FOR LIVING What is covered under the new requirements Building Classification, Classed from 1 to 10. Class is determined by purpose for which it is designed Classifications 3-9 (commercial) have had energy requirements since 2006 Class 1a A single dwelling Either detached house; or One of a group of two or more separated by a fire-wall Class 1b A boarding house, guest house, hostel or the like Total floor area not exceeding 300m 2 Not more than 12 persons ordinarily resident Class 2 Multi Residential Class 10 Non-inhabitable building or structure Being a garage, carport, or shed

8. LIGHTING FOR LIVING ADMINISTRATIVE ARRANGEMENTS currently BCA technical requirements have to be satisfied in order to gain approval of a building proposal Plan submission and approval procedures. Issue of building permits. Inspections during and after construction. Provision of evidentiary certificates. Issue of certificates of occupancy or compliance. Accreditation or approval of materials or components. Review and enforcement of standards. Fees and charges. How do we handle this for residential lighting?

9. LIGHTING FOR LIVING COMPLIANCE VARIFICATION - HOW & WHEN? This is possibly the most unclear area as to what is needed to be provided. Lighting design? What does that entail? When should this be considered? Before plans submitted The customer will need input.

10. LIGHTING FOR LIVING DESIGN INPUT / TECHNICAL KNOWLEDGE

11. LIGHTING FOR LIVING What are the requirements of the NCC? Only affects NEW home construction……..at this stage

12. LIGHTING FOR LIVING PART J6 – ARTIFICIAL LIGHT & POWER Lamp Power Density or Illumination Power Density Excluding heaters that emit light Must NOT Exceed 1.In a Class 1 & Class 2 residential building, 5 W/m 2 2.On a verandah or balcony, 4 W/m 2 3.In a class 10 (garage), 3 W/m 2 NOTE: where Illumination Power Density is used it may be increased by dividing it by the adjustment factor (refer Table 3.12.5.3)

13. LIGHTING FOR LIVING CALCULATION METHODS Two methods Illumination Power Density, or Lamp Power Density Why? It accounts for control systems

14. LIGHTING FOR LIVING PART J6 – ARTIFICIAL LIGHT & POWER Lamp Power Density - The simplest method of calculation Total power consumed by lamps, excluding ballasts, etc Total = nominal wattage of all lamps in the space / floor area of space Lamps powered from GPO’s are not included GPO’s controlled by wall switches MUST COMPLY

15. LIGHTING FOR LIVING PART J6 – ARTIFICIAL LIGHT & POWER Lamp Power Density

16. LIGHTING FOR LIVING PART J6 – ARTIFICIAL LIGHT & POWER Lamp Power Density Ground Floor (5w/m2) 208.88 x 5 = 1044.4 watts Garage (3w/m2) 37.48 x 3 = 112.4 watts Porch / Alfresco (4w/m2) 4.11 + 10.32 x 4 = 57.7 watts Total allowance for house 1214.5 watts

17. LIGHTING FOR LIVING PART J6 – ARTIFICIAL LIGHT & POWER Illumination Power Density Calculates the Total power consumed by lamps, ballasts, current regulators & control devices Total = power used / floor area of space Lamps powered from GPO’s are not included GPO’s controlled by wall switches MUST COMPLY + +

18. LIGHTING FOR LIVING PART J6.2(a) – ADJUSTMENT FACTORS Illumination Power Density Adjustment Factors Subclause J6.2(a)(ii) provides an alternative approach for dwellings with sophisticated control systems These controls are likely to reduce energy used A concession is given on the lighting power limit Recognises situations where sensors, switching devices, control systems have an impact on performance of lighting Clause J6.2(a)(iii) requires Illumination Power Density to be used

19. LIGHTING FOR LIVING PART J6.2(a) – ADJUSTMENT FACTORS Illumination Power Density Adjustment Factor Notes Manual Dimming Programmed dimming Dynamic Dimming Fixed Dimming Adjustment factors do not apply to incandescent or halogen lamps Either LPD or IPD must be used not nominal allowance for batten holder Where transformers are used - must be electronic type Halogen lamps must be separately switched from fluorescent Exterior lighting must be 1.controlled by daylight sensor, or 2.Lamp efficacy of not less than 40 lumens / watt

20. LIGHTING FOR LIVING PART J6.2(a) – ADJUSTMENT FACTORS

21. The difference between Residential and Commercial. Commercial

22. The Difference between Residential and Commercial. Commercial continued

23. LIGHTING FOR LIVING Lighting Design considerations Outcome / Objective-what are you trying to achieve? Lifestyle and / or cost Technology. What options do we have? Cost. Installation and running How is the light to be used? Decorative /practical / mood

24. LIGHTING FOR LIVING TECHNICAL PROVISION OVERVIEW The BCA stipulates maximum power density specified as a maximum limitation of watts per square metre The BCA does NOT specify the type or configuration of lighting installed The BCA does NOT specify the required lighting levels in a dwelling These decisions are design driven applications The stipulation under BCA requirements is 5 W/m 2 for interiors, 4W/m 2 for verandahs and balcony & 3 W/m 2 for garages, etc.

25. LIGHTING FOR LIVING Examples SIMULATION 100W GLS

26. LIGHTING FOR LIVING SIMULATION 100W GLS Light coverage

27. LIGHTING FOR LIVING Compliant SIMULATION 100W GLS 5 W/m2Ave 38 luxRoom 5m x 4m 1 x 100w GLS

28. LIGHTING FOR LIVING Compliant SIMULATION 100W GLS + TASK

30. 5 W/m2Ave 60 lux + 360 lux Room 5m x 4m 1 x 100w GLS + Task Lamp

31. LIGHTING FOR LIVING Non-Compliant SIMULATION MR16 50W 38 DEG

33. Room 5m x 4m 6 x 50w Dichroic 300 W Ave 230 lux15 W/m2

34. LIGHTING FOR LIVING TODAY So what are the answers? What do the new requirements really mean for the new home owner? Optimal versus minimal outcomes? Do they live in the dark? Is the day of the Down Light gone?

35. LIGHTING FOR LIVING LED TECHNOLOGY Lighting Council of Australia – SSL Scheme