1. 11 Title 24 2013 Code Compliant Lutron Solutions Lighting controls play a key role in meeting Title 24 2013 commercial building requirements Copyright 2013 Lutron Electronics Co., Inc. All rights reserved. Reproduction or display of this presentation, or any of the contents herein, without the express written consent of Lutron Electronics, is strictly prohibited by law. Note: This presentation summarizes some lighting control requirements for commercial buildings. It is for information purposes only. It is not meant to replace your state’s or local jurisdiction’s official energy code. Please refer to your local building energy code or authority having jurisdiction for your precise

2.  By reviewing lighting energy usage data and the lighting control strategies to reduce lighting consumption, the participant will be able to describe how light control saves energy in commercial buildings.  By reviewing Title 24 2013 commercial building energy code requirements, the participant will be able to determine how light control helps meets those requirements.  Through examination of space-by-space applications, the participant will be able to specify lighting controls to meet the code requirements.  Through examination of the provided real world case study, the participant will be able to describe how they used lighting controls to save energy. Learning Objectives 2

3. Why is Lighting Control Important? 33 Buildings consume 39% of total U.S. primary energy Lights use the most energy in commercial buildings Source: U.S. DOE

4. 4 Light Control Strategies Occupancy/Vacancy Sensing: Automatically turning lights off when people vacate the space. Daylight Harvesting: Automatically adjust light levels based on the amount of daylight in the space. Multi-level Lighting/Dimming: Proving users one or more light levels than full-on and full-off. Scheduling: Lights automatically turn off or are dimmed at certain times of the day or based on sunrise or sunset. High-End Tuning: Set target light level based on occupant requirements in the space.

5. 5 Controllable Window Shades: Allows users to control daylight for reduced solar heat gain and glare. Personal Light Control: Allow users in the space to select the correct light levels for the desired task. Demand Response: Reducing lighting load at times of peak electricity pricing. Plug-load Control: Automatically turning task lighting and other plug loads off when they are not needed. Light Control Strategies System Integration: Enabling multiple systems to share information and control each other to minimize product installed and maximize overall system performance.

6. Office Building Example – Lighting Energy 6 Time Lighting Power Used 1W/sf Annual energy consumption = 4.5 kWh / sf* 12 midnight 12 noon *baseline includes scheduling Timeclock and Manual Shutoff

7. Office Building Example – Lighting Energy 7 Time Lighting Power Used 12 midnight 12 noon 1W/sf Annual energy consumption = 4.5 kWh / sf ≈ 3.6 kWh / sf (occ sensing 1 ) Note: See references at the end of the presentation

8. Office Building Example – Lighting Energy 8 Time Lighting Power Used 12 midnight 12 noon 1W/sf Annual energy consumption = 4.5 kWh / sf ≈ 3.6 kWh / sf (occ sensing 1 ) ≈ 2.7 kWh / sf (tuning 2 ) Note: See references at the end of the presentation

9. Office Building Example – Lighting Energy 9 Time Lighting Power Used 12 midnight 12 noon 1W/sf Annual energy consumption = 4.5 kWh / sf ≈ 3.6 kWh / sf (occ sensing 1 ) ≈ 2.7 kWh / sf (tuning 2 ) ≈ 2.0 kWh / sf (daylighting 3 ) Note: See references at the end of the presentation

10. Office Building Example – Lighting Energy 10 Time Lighting Power Used 12 midnight 12 noon 1W/sf Annual energy consumption = 4.5 kWh / sf ≈ 3.6 kWh / sf (occ sensing 1 ) ≈ 2.7 kWh / sf (tuning 2 ) ≈ 2.0 kWh / sf (daylighting 3 ) ≈ 1.8 kWh / sf (personal ctrl. 4 ) Note: See references at the end of the presentation Save lighting energy of up to 60%

11. State Energy Code Adoption 11 DOE Ruling Oct. 19, 2011: All states must adopt an energy code as stringent as 90.1-2010 by Oct. 18, 2013.

12. 12 Additional HVAC Savings 12 Additional incremental savings in total building energy consumption when lighting energy consumption is reduced. Complaints to: phakkerainen@lutron.com Simulation with EnergyPlus3.1: Medium sized 3-story office building (6,144m2), 40% window-wall-ratio, Packaged terminal air conditioner, Standard wall insulation (ASHRAE 90.1-2004)

13. 13 Energy Codes – Title 24 Title 24 2013 Basics  Created by the California Energy Commission  2013 is the current version  Considered one of the strictest energy codes in the country 13

14. Energy codes – Title 24 CA 2013 Building Energy Efficiency Standards  Title 24, Part 6 is California’s energy efficiency code  Effective January 1, 2014  Effects all newly constructed or altered commercial and residential buildings  Interior and exterior lighting requirements 14

15. Review of Title 24 2013 Codes  Section 130.0 – Lighting Controls and Equipment - General  Section 130.1 – Indoor Lighting Controls That Shall Be Installed  (a) Area Controls  (b) Multi-Level Lighting Controls  (c) Shutoff Controls  (d) Automatic Daylighting Controls  (e) Demand Responsive Controls  Section 130.4 – Lighting Control Acceptance And Installation Certificate Requirements  (a) Lighting Control Acceptance Requirements  (b) Lighting Control Installation Certificate Requirements  Section 140.6 – Prescriptive Requirements For Indoor Lighting 15 Note: This presentation summarizes some lighting control requirements for commercial buildings. It is for information purposes only. It is not meant to replace your state’s or local jurisdiction’s official energy code. Please refer to your local building energy code or authority having jurisdiction for your precise

16. Other requirements  Commissioning  Lighting control acceptance testing  Energy metering  Controlled receptacles  Watts per ft 2 incentives for additional controls  Control requirements for lighting alterations 16

17. 17 Area controls (130.1(a)) Intent: Allow occupants to control unneeded lighting Requirements:  At least one manual lighting control for each space enclosed by ceiling-height partitions  Readily accessible to occupants  Located in the space with some exceptions  Must provide ON and OFF functionality  Manually operated Light control solutions:  Dimmers, multi-scene controls, and keypads 17 Note that if using a timeclock for shut-off controls, the area controls must be connected to the timeclock to allow for override of not more than 2 hours

18. 18 Intent: Allow occupants to moderate light levels to save energy. Requirements:  Required for spaces 100 ft 2 or larger, that have a connected lighting load greater than 0.5 watts per ft 2; and  Continuous dimming or multiple number of control steps (see table on next slide); and  Each luminaire must be controlled by one of the following methods: 1.Manual dimming 2.Lumen maintenance 3.Tuning 4.Automatic daylighting controls 5.Demand responsive lighting controls Light control solutions:  Dimmers, multi-scene controls, and keypads Multi-level lighting control (130.1(b)) 18

19. 19 Shut-off controls (130.1(c)) Intent: Eliminate after-hours lighting waste Requirements:  Automatic lighting shut-off controls for all lighting on every floor  Override of automatic shut-off allowed for not more than 2 hours  Separate controls for spaces not exceeding 5,000 ft 2  Separate controls for general, display, ornamental, and display case lighting Lighting Control Solutions: Time switch, Occupant sensor 19

20. Shut-off controls (130.1(c)) Spaces that require occupancy sensors:  Office spaces up to 250 ft 2  Multipurpose rooms less than 1,000 ft 2  Classrooms  Conference/meeting rooms  Hotels/Guestrooms Lighting in these spaces must be automatically reduced by at least 50% when unoccupied:  Stairwells  Corridors  Warehouse aisles and open areas  Library book stack aisles 20

21. 21 Daylight zone control (130.1(d)) Intent: Save lighting energy in daylit spaces Requirements:  Automatic daylight controls are required in primary and secondary sidelit daylight areas, and skylit daylight areas.  Controls must provide at least the number of control steps from Table 130.1A Lighting Control Solutions: Daylight Sensor, Dimming Ballasts 21

22. Demand responsive controls (130.1(e)) Intent: Reduce peak electricity demand Requirements:  Demand responsive automatic lighting controls that can uniformly reduce lighting power by a minimum of 15% below total installed lighting power upon receipt of a demand response signal Lighting Controls Solution: Building Level processors, full dimming controls 22 Exceptions: Buildings less than 10,000 ft 2

23. Lighting control acceptance testing (130.4(a), (b)) Intent: To ensure that controls are calibrated, adjusted, programmed, and in proper working condition Key requirements:  Confirm that the following devices have been functionally tested:  Automatic daylight controls  Lighting shut-off controls (occ sensors and timeclocks)  Demand responsive lighting controls 23

24.  When exceeding code requirements, a LPD adjustment may be allowed  Table 140.6-A in Title 24 lists these adjustments based on the chosen control strategy 24 Lighting control incentives (140.6)

25. Lighting alterations in existing buildings  Control requirements have to be met for lighting alterations to existing buildings when:  More than 10% of the luminaires are altered; OR,  For alterations that are considered “luminaire modifications-in-place”, more than 40 luminaires are changed (See Tables 141.0E and 141.0F) 25

26. Code Requirements Interior/Perimeter130.1 (a) Area Controls 130.1 (b) Multi-Level Lighting Controls 130.1 (c) Shutoff Controls 130.1 (d) Automatic Daylighting Controls Classroom 26 1 of 2 Code Compliant Dimming Solution Scheduling Occupancy/Vacancy Sensing High End Trim/Tuning Personal Dimming Control Daylight Harvesting _________________________ Typical Savings: 65%* *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references.

27. Classroom: Retrofit/New Construction 27 Typ. of 12 Low voltage wiring Proposed Sequence of Operations SW1: All general lighting SW2: Whiteboard lighting Control Type: Dimmed; 20% High-End Trim Lights ON: Auto ON Lights Adjust: Manual; Daylight Responsive Control Lights OFF: Auto OFF within 30 minutes 2 of 2 SW2 SW1 KeyQtyPart NumberDescription 12EHD-T832-MU210EcoSystem H-Series Ballasts 1RMJ-ECO32-DV-BEcoSystem PowPak Module 1LRF2-OWLB-P-WHRadio Powr Savr Wireless Wall Occ/Vac Sensor 2PJ-3BRL-GWH-yyyPICO Wireless Remote Controls 1LRF2-DCRB-WHRadio Powr Savr Wireless Daylight Sensor 2PICO-FP-ADAPTERPICO Faceplate Adapter *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references.

28. Conference Room 28 1 of 2 Code Requirements Interior/Perimeter130.1 (a) Area Controls 130.1 (b) Multi-Level Lighting Controls 130.1 (c) Shutoff Controls 130.1 (d) Automatic Daylighting Controls Code Compliant Dimming Solution Scheduling Occupancy/Vacancy Sensing High End Trim/Tuning Personal Dimming Control Daylight Harvesting _________________________ Typical Savings: 65%* *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references.

29. Conference Room: Retrofit/New Construction 29 Typ. of 6 Low voltage wiring KeyQtyPart NumberDescription 6EHD-T832-MU210EcoSystem H-Series Ballasts 1RMJ-ECO32-DV-BEcoSystem PowPak Module 1LRF2-OWLB-P-WHRadio Powr Savr Wireless Wall Occ/Vac Sensor 1LRF2-DCRB-WHRadio Powr Savr Wireless Daylight Sensor 2PJ-3BRL-GWH-yyyPICO Wireless Remote Controls 2PICO-FP-ADAPTERPICO Faceplate Adapter 2 of 2 SW2 SW1 Proposed Sequence of Operations SW1: All general lighting SW2: Presentation area lighting Control Type: Dimmed; 20% High-End Trim Lights ON: Auto ON Lights Adjust: Manual; Daylight Responsive Control Lights OFF: Auto OFF within 30 minutes *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references.

30. Corridor/Hallway: Retrofit/ New Construction 30 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 1 of 2 Code Requirements Interior/Perimeter130.1 (a) Area Controls 130.1 (b) Multi-Level Lighting Controls 130.1 (c) Shutoff Controls Lighting Control Strategies Dimming Lights High-End Tuning Occupancy/Vacancy Sensing ________________________ Typical Savings: 60%*

31. Corridor/Hallway: Retrofit/ New Construction 31 Low voltage wiring KeyQtyPart NumberDescription 6EHD-T817-MU210EcoSystem H-Series Ballasts 1RMJ-16R-DV-BEcoSystem PowPak Module 1LRF2-OHLB-P-WHRadio Powr Savr Wireless Hallway Occ/Vac Sensor 1PJ-3BRL-GWH-yyyPICO Wireless Remote Controls 1PICO-FP-ADAPTERPICO Faceplate Adapter 2 of 2 Proposed Sequence of Operations SW1: All Lights Control Type: Dimmed; 50% High-End Trim Lights ON: Auto ON to 50% or less Lights Adjust: None Lights OFF: Auto OFF to 10% within 30 minutes SW1

32. Private Office 32 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 1 of 2 Code Compliant Dimming Solution Scheduling Occupancy/Vacancy Sensing High End Trim/Tuning Personal Dimming Control Daylight Harvesting _________________________ Typical Savings: 60%* Code Requirements Interior/Perimeter130.1 (a) Area Controls 130.1 (b) Multi-Level Lighting Controls 130.1 (c) Shutoff Controls 130.1 (d) Automatic Daylighting Controls

33. Private Office: Retrofit/ New Construction 33 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. Proposed Sequence of Operations SW1: All lights Control Type: Dimmed; 20% High-End Trim Lights ON: Auto ON Lights Adjust: Manual; Daylight Responsive Control Lights OFF: Auto OFF after 15 minutes Low voltage wiring Typ. of 4 2 of 2 SW1 KeyQtyPart NumberDescription 4EHD-T832-MU210EcoSystem H-Series Ballasts 1RMJ-ECO32-DV-BEcoSystem PowPak Module 1LRF2-OCR2B-P-WHRadio Powr Savr Wireless Wall Occ/Vac Sensor 1LRF2-DCRB-WHRadio Powr Savr Wireless Daylight Sensor 1PJ-3BRL-GWH-yyyPICO Wireless Remote Controls 1PICO-FP-ADAPTERPICO Faceplate Adapter

34. Open Office 34 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 1 of 2 Code Compliant Dimming Solution Scheduling Occupancy/Vacancy Sensing High End Trim/Tuning Personal Dimming Control Daylight Harvesting _________________________ Typical Savings: 60%* Code Requirements Interior/Perimeter130.1 (a) Area Controls 130.1 (b) Multi-Level Lighting Controls 130.1 (c) Shutoff Controls 130.1 (d) Automatic Daylighting Controls

35. Open Office: Retrofit/ New Construction 35 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 2 of 2 Typ. of 16 Low voltage wiring KeyQtyPart NumberDescription 16EHD-T832-MU210EcoSystem H-Series Ballasts 1RMJ-ECO32-DV-BEcoSystem PowPak Module 4LRF2-OCR2B-P-WHRadio Powr Savr Wireless Wall Occ/Vac Sensor 1LRF2-DCRB-WHRadio Powr Savr Wireless Daylight Sensor 1PJ-3BRL-GWH-yyyPICO Wireless Remote Controls 1PICO-FP-ADAPTERPICO Faceplate Adapter SW1 Proposed Sequence of Operations SW1: All lighting Control Type: Dimmed; 20% High-End Trim Lights ON: Auto ON Lights Adjust: Manual; Daylight Responsive Control Lights OFF: Auto OFF within 30 minutes

36. Restroom (Single) 36 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 1 of 2 Code Requirements Interior/Perimeter130.1 (a) Area Controls 130.1 (c) Shutoff Controls Lighting Control Strategies Occupancy/Vacancy Sensing _______________________ Typical Savings: 50%*

37. Restroom (Single): Retrofit/ New Construction 37 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 2 of 2 KeyQtyPart NumberDescription 1S-OPS6M2-DV-XXMaestro In-Wall Occupancy/Vacancy Sensor Switch Line voltage wiring SW1 Proposed Sequence of Operations Control Type: Switched Lights ON: Auto ON Lights Adjust: Manual Lights OFF: Auto OFF within 30 minutes

38. Restroom (Multiple) 38 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 1 of 2 Code Compliant Switching Solution Occupancy/Vacancy Sensing ________________________ Typical Savings: 50%* Code Requirements Interior/Perimeter130.1 (a) Area Controls 130.1 (b) Multi-Level Lighting Controls 130.1 (c) Shutoff Controls

39. Restroom (Multiple): Retrofit/ New Construction 39 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 2 of 2 KeyQtyPart NumberDescription 1RMJ-5R-DV-BSoftSwitch Wireless PowPak 2LRF2-OCR2B-P-WHRadio Powr Savr Wireless Wall Occ/Vac Sensor 1PJ-3BRL-GWH-yyyPICO Wireless Remote Controls 1PICO-FP-ADAPTERPICO Faceplate Adapter Proposed Sequence of Operations SW1: All lighting Control Type: Dimmed Lights ON: Auto ON Lights Adjust: Manual Lights OFF: Auto OFF within 30 minutes Line voltage wiring SW1

40. Storage Room 40 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 1 of 2 Code Compliant Switching Solution Occupancy/Vacancy Sensing ________________________ Typical Savings: 30%* Code Requirements Interior/Perimeter130.1 (a) Area Controls 130.1 (c) Shutoff Controls

41. Storage Room: Retrofit/ New Construction 41 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 2 of 2 KeyQtyPart NumberDescription 1S-OPS6M2-DV-XXMaestro In-Wall Occupancy/Vacancy Sensor Switch Proposed Sequence of Operations SW1: All Lights Control Type: Switched Lights ON: Auto ON Lights Adjust: None Lights OFF: Auto OFF within 30 minutes Line voltage wiring SW1

42. Stairwell 42 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. 1 of 2 Code Compliant Dimming Solution Dimming Lights High-End Tuning Occupancy/Vacancy Sensing ________________________ Typical Savings: 70%* Code Requirements Interior/Perimeter130.1 (a) Area Controls 130.1 (c) Shutoff Controls

43. Stairwell: Retrofit/ New Construction 43 *All savings based on going from manual shutoff to the above mentioned strategies. Cost does not include installation. See final page for references. KeyQtyPart NumberDescription 5FXSW23214HDU51Stairwell Fixture; 4ft 2L T8 32W; H50%/L10%; Field Adjust 3LRF2-OWLB-P-WHRadio Powr Savr Wireless Wall Occ/Vac Sensor 1PJ-3BRL-GWH-yyyPICO Wireless Remote Controls 1PICO-FP-ADAPTERPICO Faceplate Adapter 2 of 2 Proposed Sequence of Operations SW1: All Lights Control Type: Dimmed; 50% High-End Trim Lights ON: Auto ON to 50% or less Lights Adjust: None Lights OFF: Auto OFF to 10% after 1 minute SW1

44. 44 Summary of key control requirements Title 24 lighting control requirements and Lutron solutions  Automatic Shut-off: Radio Powr Savr occ sensors  Multi-Level Lighting Control: Pico wireless controls  Shut-OFF Controls: Radio Powr Savr occ sensors, occ/vacancy switches  Automatic Daylighting Control: Wireless daylight sensors, EcoSystem H-Series, PowPak dimming module  Demand Responsive Controls: Quantum, ESN  Lighting Control Acceptance Testing: Lutron Field Service

45. 45 Real world example – The Energy Foundation Overview:  San Francisco, CA  Location inside the historic Bently Reserve building  Their mission: To promote a clean energy future  Architect: David Hecht, Tannerhecht Architecture  LEED CI Platinum  17,600 sq. ft.  323 light fixtures  65% lighting energy savings from light control

46. 46 Real world example – The Energy Foundation The Challenge  Transform office space in a landmark building into an international showcase for energy-efficient lighting. The Solution  Light control system that maximizes the use of daylight, saves energy and enhances productivity in the workplace.

47. 47 Real world example – The Energy Foundation The Strategies  Occupancy Sensing / Scheduling  High-end Trim / Tuning  Daylight Harvesting  Multi-level lighting/Dimming  Controllable Shades

48. 48 The Results  65% less lighting energy than an equally-sized traditionally lit space  LEED Platinum  “We wanted the lighting to be of high quality, and we wanted our employees to be satisfied—and that’s exactly what we’ve gotten” John Wilson, Buildings Program Director for the Energy Foundation Real world example – The Energy Foundation

49. More information on energy codes Energy codes by state  www.lutron.com/energycodes www.lutron.com/energycodes  www.energycodes.gov www.energycodes.gov  www.energycodesocean.org www.energycodesocean.org  www.ashrae.org www.ashrae.org  www.iccsafe.org www.iccsafe.org 49

50. Questions? 50 Scott Garrett Senior Systems Applications Engineer Central Area East & West sgarrett@lutron.com Michael Jouaneh Manager – Sustainability & Energy Standards mjouaneh@lutron.com Brent Protzman Architectural Engineering Leader & Energy Solutions bprotzman@lutron.com

51. Energy Savings References All savings numbers based on data collected from Lutron projects and the following journal articles: 1.VonNieda B, Maniccia D, & Tweed A. 2000. An analysis of the energy and cost savings potential of occupancy sensors for commercial lighting systems. Proceedings of the Illuminating Engineering Society. Paper #43. 2.Williams A, et al. 2012. Lighting Controls in Commercial Buildings. Leukos. 8(3) pg 161-180. 3.Reinhart CF. 2002. Effects of interior design on the daylight availability in open plan offices. Study of the American Commission for an Energy Efficient Environment (ACE) Conference Proceedings. To achieve maximum lighting savings, automated shades are utilized. 4.Galasiu AD, et al. 2007. Energy saving lighting control systems for open-plan offices: A field study. Leukos. 4(1) pg 7-29. 51