March 13, 2006

1. The Energy Policy Act of 2005Understanding & Opportunity Bob Trate - CPMR March 13, 2006

2. Agenda • EPAct 2005 Overview • EPAct 2005 Lighting Provisions • ASHRAE 90.1-2001 Standard • Tax Deduction Opportunity • Lead with Lighting • Getting Started • Advance “Optanium” Electronic Ballasts • Lighting Controls

3. EPAct 2005 Overview Background • Signed by President George W. Bush August 8, 2005 • Over 3 years of legislative development • First major overhaul of the National EPAct since 1992 • Estimated to result in ~$500M in incremental sales of lighting systems • Covers energy generation, transmission, distribution, and energy efficiency

4. EPAct 2005 Overview Objectives • Reduce the nation’s energy consumption • Decrease pollutant emissions • Cut dependence on foreign fuel • Encourage innovation of products & systems • Improve global competitiveness

5. EPAct 2005 Overview Tactics • Reduce energy consumption at the application level • Set product and system energy efficiency requirements • Strengthens requirement to use the EPA’s Energy Star rated products/alliances • Improve interior lighting, HVAC & building envelope systems • Reward improvements with one-time tax deduction

6. EPAct 2005 Overview • Tax deduction provisions are intended to allow credit for alternate design methods: • Automatic lighting controls • Daylighting • Occupancy sensors • Dimming systems not included • Improved fan motor efficiency • Variable speed controllers • Fuel cells • Low loss wire for building power distribution

7. EPAct 2005 Overview Federal Building Provisions • Existing federal buildings • Reduce energy based on gross consumption per sq ft in 2003 • Starts 2006, must reduce consumption by 2% per year • Goal in 2015, achieve overall 20% reduction vs. 2003 • Install sub-metering by 10/1/2012, hourly reporting • New federal buildings • Exceed ASHRAE/IES 90.1-2001 standards by 30% for commercial buildings • Utilize sustainable design principles for siting, design and construction

8. EPAct 2005 Lighting Provisions Efficacy Standards for Lighting Products • Exit signs • Must meet Energy Star Version 2.0 after January 1, 2006 • Torchiere • Must not consume more than 190 watts and not capable of operating lamp with more than 190 watts after January 1, 2006 • Traffic Signals • Must meet Energy requirements from Traffic Signal Version 1.1 after January 1, 2006 • Medium Base Compact Fluorescent Lamps • Must meet August 9, 2001 Energy Star requirements after January 1, 2006

9. EPAct 2005 Lighting Provisions Efficacy Standards for Lighting Products • Ceiling Fan Kits – effective January 1, 2007 • Lamps, screw-based or pin-based must be packaged with light kit • Medium screw based socket must use CFL that meets Energy Star 3.0 requirement or another light source with equal or better lumen per wattage efficacy • Magnetic Fluorescent ballasts • Energy Savings lamps (F34T12, F96T12) are added to the 2000 DoE Ballast Ruling, effective 2009 • Manufactured on or after July 1, 2009, sold after October 1, 2009 • Installed in a luminarie by luminarie manufacturer after July 1, 2010 • Mercury Vapor ballasts • Shall not be manufactured or imported after January 1, 2008

10. EPAct 2005 Lighting Provisions Ballast Regulations 2005 BEF Standards for Full-Wattage T12 Lamps 2009 BEF Standards for Energy-Saving T12 Lamps Requirement April 1, 2006 BEF = ballast efficacy factor

11. EPAct 2005 Lighting Provisions Replacement Ballasts • Can be manufactured until July 1, 2010 • Must be marked “For Replacement Only” • Shorter lead lengths • Packaging limits, 10 units or less Ballast Exemptions • Dimming ballasts with 50% or lower of max. light output • F96T12HO ballasts for -200F ambient or outdoor signs • Power Factor <0.9 that are designed and labeled for “Residential Use Only”

12. ASHRAE 90.1-2001 Lighting Power Density • ASHRAE 90.1-2001 set max watts per sq ft (lighting power density) • Exterior and interior building have separate limits • Can tradeoff within exterior or interior, but not across them • DOE utilizes as baseline for State energy codes • Participation varies by state • Two methods to measure lighting power density • Building Area • Space-by-Space (by room type)

13. LPD Calculation Methods Building Area Method • Total wattage vs. established standard for the entire building Space-by-Space Method • Standards based on task specific & room type requirements • May trade-off between wattage on interior applications • Credits for control are not allowed

14. Lighting Power Densities

15. State Standards State Standards for Lighting Power Density

16. States & EPAct 2005 Assistance Individual State Assistance • Have conservation plan that targets a 25% efficiency improvement in energy use by 2012 (vs. 1990 level) • Appropriations to states of $100,000,000 for each fiscal year 2006 & 2007, $125,000,000 for 2008 • Residential rebate programs use Energy Star Products • New commercial construction must exceed most recent IECC State code by 30% • Renovations of existing buildings must achieve 30% reduction in energy use versus level prior to renovation

17. Tax Deduction Opportunity Tax Deduction Provisions • Efficiency based on ASHRAE 90.1-2001 • Certification of energy and power based upon 2005 California Nonresidential Alternative Calculation Method Approval Manual • Deduction cannot exceed cost of upgrade, including materials, labor & design • Deduction taken in the year placed in service

18. Tax Deduction Opportunity Tax Deduction Provisions • Qualifying property must be put in service from January 1, 2006 – December 31, 2007 • Up to $1.80/sq. ft. for “Energy Efficient Property” used for new construction or renovation • $0.60/sq. ft. each for interior lighting system, HVAC, and building envelopes

19. Tax Deduction Opportunity Two Types of Tax Deductions • Whole Tax Deduction • Interior Lighting, HVAC, Building Envelope • One time deduction up to $1.80 per square foot if ASHRAE 90.1-2001 is exceeded by >50% • Partial Tax Deduction • Not all systems achieve 50% improvement over ASHRAE 90.1-2001 • One time deduction up to $.60 per square foot for Lighting with >40% improvement

20. Interim Rules for Lighting Systems Tax Deduction Eligibility • 25% - 40% improvement over 90.1-2001 • 50% improvement required for warehouses to achieve $0.60/sq. ft. deduction • Controls Provisions: bi-level switching, automatic light shut-off, tandem ballast wiring • Minimum requirements for light levels per IESNA

21. Tax Deduction Opportunity Tax Deduction Recipient • Tax deduction recipient is dependent upon building ownership • Private: Owner or party who paid to have the building constructed or renovated • Federal, State, local/political subdivision: Party primarily responsible for designing the property • No deduction for low-rise residential buildings

22. EPAct 2005 & Lighting Why lead with Lighting? • Lighting consumes up to 40% of total energy costs • 80% of buildings use pre-1986 lighting technology • Only 20% of buildings built before 1986 have since had lighting upgrades • Lighting is the fastest and easiest way to upgrade • Offers substantial and lasting energy cost reduction • Average 2-3 year payback on lighting upgrade

23. EPAct 2005 & Lighting Why lead with Lighting? Example: T12 to T8 Lighting Upgrade 3-YR Potential Energy Savings: $96,030 • Current T12 System • 300 Offices with two 4-lamp fixtures ea. • 600 4-lamp Fixtures • 40W T12 Lamps • Magnetic Ballasts (2 per fixture) • 172 Total System Watts New T8 System 300 Offices with two 4-lamp fixtures ea. 600 4-lamp Fixtures 2400 F32T8 25 watt Lamps 600 LW hi-efficiency electronic ballast 75 Total System Watts Energy Saved 97 watts per fixture $53.35 annual savings per fixture $32,010 total annual savings $96,030 total 3-yr savings Based on 5500 annual burn hours and electricity rate of $.10 per kWh. Lighting upgrades yield great returns – without incentives!

24. EPAct 2005 & Lighting Sample Calculation: Partial Deduction for 48,000 Sq Ft Lighting Upgrade • 300 Offices @ 160 Sq Ft each = 48,000 Sq Ft • Lighting power density improved by 37.5% over ASHRAE 90.1-2001 • $.54 per Sq Ft tax deduction • Corporate tax rate of 33% • 48,000 Sq Ft. x $.54 x 33% = $8,554 one-time tax savings Tax Savings are the icing on the upgrade cake!

25. Getting Started Lead with Lighting • Reduce building-wide energy consumption by up to 20% • Add cash savings annually to bottom line profitability • Earn EPAct 2005 one-time tax deduction to accelerate ROI • Enhance property value and marketability • Increase tenant safety, satisfaction, productivity • Meet requirements for LEED and sustainability

26. Getting Started Talk to the Experts • Request a SmartCalc audit from Advance • Contact an energy service company (ESCO) • Talk to a utility representative • Consult an accredited lighting designer

27. Getting Started Talk to Advance • Visit the Advance energy bill website • Know why efficient lighting starts with the ballast • Explore a full range of ballast options • Keep your future lighting options open www.energybillinfo.com

28. Getting Started Why Advance? • Ballast technology leadership • Solutions that support unrestricted lamp, fixture and control innovation • Driving higher efficiency lighting systems • Brand most specified by electrical contractors • Industry leading Plus 90 system warranty

29. Introducing Optanium™2.0 Moving beyond high-efficiency to True Performance Technology

30. Electronic Ballast Timeline 2nd generation -“Centium” “RCN-VCN” dedicated voltage, Mark V & Mark VII “RCN-VCN” Centium slated for discontinuation – “Optanium” 1.0 introduced IntelliVolt versions of “Centium”, “Smart-Mate” & Mark VII. Also Mark X 1st generation – “REL-VEL” dedicated voltage “Optanium” 2.0 and “Energy-Saving” T-8 Lamps 1980’s 1990’s ’98 – ‘04 ’04 – ‘05 2006 T-12 & Std T-8 to High-Efficiency Electronic and “Energy-Saving” T-8 Retrofits – Lighting Controls standard – Systems integration T-12 to T-8 Retrofits – Some or no lighting controls

31. What is “Optanium™ 2.0”? Original Optanium™ (aka Optanium™ 1.0): • High Efficiency • Instant Start Only • Dedicated voltage • Lamp auto-restrike Optanium™ 2.0 adds features and functionality

32. What is “Optanium™ 2.0”? Optanium™ 2.0… Not just moving beyond dedicated voltage Optanium, but eclipsing all competitive offerings as well…..

33. Optanium™ 2.0 True Performance TechnologySM… A “Twelve Step Program” for high performance-high efficiency T8 lighting

34. The Optanium™ 2.0 Advantage • High Efficiency Ballast • Ballast consumes approx 3 watts less than standard electronic • IntelliVolt technology Most high-efficiency ballasts stop here. Sure, some brands add another feature or two… but the total performance of Optanium 2.0 is unmatched. True Performance Technology begins where standard high-efficiency ends…

35. The Optanium™ 2.0 Advantage • High Efficiency Ballast • Ballast consumes approx 3 watts less than standard electronic • Intellivolt technology • Energy Savings – Today AND Tomorrow • Constant current design delivers maximum energy-saving performance from standard AND energy-saving T8 lamps • Optimize Lamp Life with Starting Options • Instant Start – meets ANSI lamp ignition specifications of <100 ms • Programmed Start – optimized performance for frequent on/off applications

36. The Optanium™ 2.0 Advantage • Trouble-Free Installation • Leads exit ballast on the correct ends • Reduces installation and maintenance costs • Significantly lowers risk of pinched leads • No Interference with Security Systems • Operating frequency range is 42-52 kHz • Avoids 30-40 kHz IR range • Avoids 54-62 kHz anti-theft device range • Suitable in Temperature-Sensitive Applications • -20° start temp for 32W T8 lamps on instant start models • Ideal for parking garages, warehouses and cold storage areas

37. The Optanium™ 2.0 Advantage • Anti-Arc Protection • UL Type CC rating protects system components in event of damaged sockets or poorly seated lamps, without compromising other system capabilities • Lower Maintenance Costs • Lamp auto-restrike capability allows the ballast to ignite replacement lamps without cycling the power • Meet new NEMA/CEE High Performance T8 Lighting System Specifications • Advance’s broad range of instant and programmed start models qualify users for Super T8 rebates

38. The Optanium™ 2.0 Advantage • Increased Light Quality • Anti-striation circuitry eliminates lamp striation problems • Flexible Solutions • Available in low, normal, and high ballast factor configurations to meet a wide range of application needs • Extended System Warranty Protection • Regardless of lamp manufacturer or wattage, Advance’s PLUS 90 Protection warranties the entire system for 90 days beyond the lamp manufacturer’s published warranty

39. Why Choose Advance Optanium™ 2.0?

40. Unparalleled Features

41. Unparalleled Choice Comprehensive system warranty puts the lamp choice back in the end-user’s hands… …without sacrificing warranty protection. ONLY from Advance… where great lighting starts.

42. Ballast Factor In Terms of Control • Electronic ballasts are offered with different ballast factors (refer to Advance catalog) • Selection and application of ballast factor can act as a form of lighting control • Reducing the ballast factor reduces light output and saves energy

43. Ballast Factor Defined • “Measure of light output from lamp operated by commercial ballast, as compared to laboratory standard referenced ballast specified by ANSI.” • You have 3 ballast factor choices when using electronic ballasts: • Normal ballast factor (≈.88) • High ballast factor (≈1.20) • Low Ballast factor (≈.75)

44. Ballast Factor Is Important • You can control the amount light you need by selecting the correct ballast factor • Low ballast factor = less light and saves energy • High ballast factor = more light and less energy efficient • Know when and where to use the different ballast factors

45. BF High Power Ballast 1.20 3540 Lumens / lamp 77 Watts Reference Ballast 1.00 2950 Lumens / lamp 64 Watts Normal Power Ballast .87 2567 Lumens / lamp 58 Watts Low Power Ballast .75 2213 Lumens / lamp 51 Watts Lumens 1600 0 800 2400 3200 Ballast Factor & Light Output Performance Comparison of 2 – F32T8 Lamps

46. Fluorescent Dimming • An excellent method of control resulting in exceptional energy savings • Varies ballast factor from 1.0 to .05 % • Advance offers 2 types: • Mark X® – Powerline 2-wire • Mark VII® – 0-10 Volt D.C. Control • Multiple control manufacturers including Leviton Mfg.

47. Leviton Lighting Controls

48. Lighting Energy Standards, LEED & Energy Tax Bill “Energy issues overlap different codes.” Four Code Types to Consider • Energy Codes • Safety or Building Codes • Dark Sky Codes or Ordinances • Lamp/Ballast Disposal

49. Lighting Energy Standards, LEED & Energy Tax Bill “Energy standards are authorized models used to define design criteria to meet or exceed code requirements.” National Energy Standards • ASHRAE/IESNA 90.1 – 2004 Advanced Energy Design Guide for Small Office Buildings • IECC – 2003 (next release due January 2006) • USGBC LEED 2.1 (next release 2.2 due First of 2006) • Advanced Buildings Benchmark V1.1 (V2 due spring of 2006) • CHPS (schools only, started in California but followed in Washington and Massachusetts and work has started on a national version) • CEC Title 24 2005

50. Lighting Energy Standards, LEED & Energy Tax Bill “Energy Codes define the maximum usage, not the optimum design.” Lighting Energy Codes • Determine a power density rate and lighting control requirements for allowable energy consumption for whole buildings, spaces, or occupancy • Typically expressed in Watts per Square Foot (W/SF) as Lighting Power Density (LPD) • Can include minimum efficiencies for equipment typically expressed in Lumens per Watt • States adopt standards or criteria and enforce as code