www.osram-americas.com
Light is Compliant
Solutions to meet California Title 24 - 2013
for energy efficient non-residential buildings
About ASHRAE 90.1
About California Title 24 – 2013
Energy Code Compliance and Lighting
Energy efficient design of buildings is required by energy codes and challenges building
owners to reduce their carbon footprint. California implemented Title 24, 2013 Building
Energy Efficiency standard for non-residential and residential buildings on January 1, 2014
replacing the previous Title 24, 2008 standard. It has many similarities to ASHRAE 90.1-2010
which was adopted by several other states but has additional control requirements and more
stringent requirements for testing and certification of controls commissioning.
Energy efficient lighting provides the greatest opportunity to
save energy since lighting represents up to 35% of the energy
usage in commercial buildings.
High efficiency lighting systems with controls provides the
most significant energy savings to meet or exceed energy
code requirements. New solid state lighting (LED) luminaires
can save up to 50% in energy over the fluorescent systems
they replace. Retrofitting existing fluorescent T12 or T8
luminaires with higher efficiency, longer life T8 lamp and
ballast systems not only can save up to 40% in energy cost,
but can provide longer lamp life, up to three or four times the
life of older fluorescent lamp technologies and significantly
reduce maintenance cost. Plus, the incorporation of lighting
controls can save an additional 10 -75% in energy cost
depending on the chosen control strategies.
Business Goals, Building Design, and Lighting Choices
–The type of business impacts the lighting needs
–Building layout impacts lighting design options
–Lighting choices can impact business results
When making lighting design decisions, utilize natural daylight, select the most efficient lighting
systems, install controls, and take advantage of utility rebates to reduce the initial investment costs.
Trends
Business
–Profitable growth more difficult
–Low operational cost
needed to be competitive
–Focus on improving productivity
2
Design
–Sustainable, LEED certified buildings
–More natural light & views desired
–Open office concepts popular
–Branding & image set
businesses apart
Lighting
–Daylighting with controls
–Reduction in lighting power density to meet energy codes
–Shift to solid state lighting
–Utility rebates for energy
efficient lighting
Energy Code Requirements
Impact of California Title 24 – 2013
California Title 24, 2013 standard is intended to improve energy efficiency in non-residential buildings by 30%
and homes by 25%. It affects interior and exterior lighting requirements for all newly constructed or altered
commercial and residential buildings.
This brochure will focus on lighting solutions for meeting Title 24 energy code requirements for non-residential
buildings. Consult the California Energy Commission website for complete details on Title 24 code compliance.
www.energy.ca.gov/title24/2013standards/
Meeting California Title 24 – 2013
Non-residential buildings
The control requirements are the biggest challenge.
All interior luminaires in non-residential buildings
must have manual on/off controls with each area
independently controlled.
Alterations affecting 10% of the lighting load,
including basic retrofits, must comply with lighting
power density (LPD) and control requirements.
Building spaces with fewer than 40 fixtures are
exempt from the luminaire modification in place
controls and LPD.
Interior Lighting Requirements
•Multi-level Lighting controls for areas larger than 100 ft2 with a connected lighting load >0.5 W/sf (Table 130.1-A) – Must meet lighting uniformity requirements
− Continuous or step-dim defined by luminaire type
• Automatic daylighting controls for primary daylit zones
with at least 120W installed load
− Daylit zones now 75% of total area - up from 50% for buildings greater than 5,000 ft2
•Occupant sensing lighting controls for specific spaces
−Offices ≤ 250 ft2 – Conference rooms – Multi-purpose < 1000 ft2 – Classrooms
− Added parking and garages
•Demand response lighting controls for non-residential buildings > 10,000 ft2
− Ability to reduce light levels by 15% below maximum
total power
•Secondary spaces lighting controls
− Reduce lighting power by 50% for corridors, warehouse aisles and library stack aisles
•Emergency egress lighting controls
− Maximum allowance of 0.2 W/sf previously 0.3 W/sf (2008)
− Must be shut-off during unoccupied times
OSRAM Solutions to Meet California Title 24 Indoor Control Requirements
IndoorENCELIUM ® Energy Managament System
ENCELIUM ®QUICKTRONIC ®
Sensors
Bi-Level Ballast
QUICKTRONIC ®
Dimming Ballast
Multi-level Lighting Control Mandatory Automatic Daylighting XX
X
X
X
X
X
X
Automatic Shut-off Controls
X
X
Demand Response Controls
X
3
Energy Code Requirements
Interior Lighting Requirements
Multi-level Lighting controls for areas larger than 100 ft2 with a connected lighting load >0.5 W/sf (Table 130.1-A)
Luminaire Type
Minimum Required Control Steps
(through full rated power 1)
Uniform level of illuminance
shall be achieved by:
Line voltage incandescent and halogen
Low-voltage incandescent & halogen systems
LED lamps and LED systems
Continuous dimming 10 -100%
Continuous dimming
Continuous dimming 20 -100%
Continuous dimming
GU-24 sockets rated for fluorescent > 20W
Pin-based compact fluorescent > 20W2
GU-24 sockets rated for fluorescent ≤ 20W
Minimum one step through 30 -70%
Pin-based compact fluorescent ≤ 20W2
Linear & U-bent fluorescent ≤ 13W
Stepped dimming, continuous dimming
or switching alternate lamps in a luminaire
Linear & U-bent fluorescent > 13W
Minimum one step through each
20 - 40% 50 -70% 80 - 85% 100%
Stepped dimming, continuous dimming
or switching alternate lamps in a luminaire
Track Lighting
Minimum one step through 30 -70%
Stepped dimming, continuous dimming
or separately switching circuits in
multi-circuit track with a min. of 2 circuits
HID > 20W and Induction > 25 watts
Minimum one step through 50 -70%
Other light sources
Stepped dimming, continuous dimming
or switching alternate lamps in a luminaire
1. Full rated input power of ballst and lamp, corresponding to maximum ballast factor
2. Includes only pin based lamps: twin tube, long twin tube, multiple twin tube and spiral lamps
Parking Garage Lighting Requirements
– At least one step between 20% and 50% of designed lighting power
– Daylighting controls must be multi-level, continuous
dim or on/off
– Controls to shut-off lighting when side lit zones
reach 150% of electric lighting-wall with net
opening ratio of at least 40%
– For > 36 sf – primary & secondary sidelit zones
must be controlled independently by photo sensors
OSRAM Solutions to Meet California Title 24 Indoor Control Requirements – Parking Garages
IndoorENCELIUM ® Energy Managament System
ENCELIUM ®QUICKTRONIC ®
Sensors
Bi-Level Ballast
QUICKTRONIC ®
Dimming Ballast
Multi-level Lighting Control Mandatory Automatic Daylighting X
X
X
X
X
X
X
X
Automatic Shut-off Controls
X
X
Independent Control for Sidelit Zones
X
X
4
Energy Code Requirements
Indoor Lighting Power Density Allowances
The allowed Indoor Power Density for general lighting calculations can be calculated based on one of
three methods:
–Complete Building Method based on the entire building; subject to adjustments
–Area Category Method by itself for all areas or some areas using Tailored Method; subject to adjustments
–Tailored Method by itself for all areas or some areas using Area Category Method; subject to adjustments
Complete Building Method
Building Type
Area Category Method (Partial List)
Lighting Power
Density (W/ft 2)
Primary Function Area
Lighting Power
Density (W/ft 2)
Auditorium Building
1.5
Classroom, Lecture, Training and Vocational Area
1.2
Classroom Building
1.1
1.4
Commercial and Industrial Storage
0.6
Convention, Conference, Multi-purpose and Meeting Centers
Convention Center
1.2
0.6
Financial Institution
1.1
Corridor, Restroom, Stair and Support Areas
Museum – Exhibit Area
Financial Transaction Area
Lobby Area – Hotel
1.2
General Commercial/ Industrial Work Building
1.0
Grocery Store Buiding
1.5
Library Building
1.3
Medical Building
1.1
Office Building
0.8
Parking Garage
0.2
Religious Facility
1.6
Restaurant Building
1.2
School Building
1.0
Theatre Building
1.3
All other Buildings
0.6
2.0
1.1
Medical & Clinical Care Area
1.2
Office Area > 250 ft 20.75
Office Area < 250 ft 21.0
Parking Garage – Parking Area
0.14
Parking Garage – Dedicated Ramps
0.3
Parking Garage – Daylight Adaptation Zones
0.6
Retail Merchandise Sales, Wholesale and Showroom Areas
1.2
5
Energy Code Requirements
Tailored Method
Power Density Allowances (Partial List)
Primary Function Area
General Illumination Wall Display Power
Level (LUX) Density (W/ft 2)
Combined Floor
Display & Task Lighting
Power Density (W/ft 2)
Allowed Ornamental/
Special Effect
Lighting (W/ft 2)
Auditorium
3002.25 0.3
0.5
Convention, Conference, Multi-
purpose and Meeting Centers
Museum – Exhibit Area
300
2.50
0.4
0.5
150
15.0
1.2
0.5
Financial Transaction Area
300
3.15
0.2
0.5
Grocery Store
Hotel – Lobby Area
500
8.0
0.9
0.5
200
3.15
0.2
0.5
Lobby Area – Main Entry
200
0
0.2
0
Religious Worship
300
1.5
0.5
0.5
Retail Merchandise Sales, Wholesale and Showroom Areas
Theater Area – Performance
400
14.0
11.0
0.5
200
6.0
0
0.5
Adjustment for Mounting Height above the floor
Height in Feet Finished Floor
and Bottom of Luminaire(s)
< 12 feet
12 – 16 feet
> 16 feet
Floor Display or Wall Display
Multiply by
1.00
1.15
1.30
Tailored Method (continued)
Allowed Lighting Power Density Based on Room Cavity Ration (RCR) and IES Illuminance Recommendations.
Illuminance Levels (LUX) – Power Density Values W/ft 2
IES lluminance level (LUX)
RCR < 2.0
RCR > 2.0 and < 3.5
RCR > 3.5 and < 7.0
RCR > 7.0
50
0.2
0.3
0.4
0.6
100
04
0.6
0.8
1.2
200
0.6
0.8
1.3
1.9
300
0.8
1.0
1.4
2.0
400
0.9
1.1
1.5
2.2
500
1.0
1.2
1.6
2.4
600
1.2
1.4
2.0
2.9
700
1.4
1.7
2.3
3.3
800
1.6
1.9
2.6
3.8
900
1.8
2.2
3.0
4.3
1000
1.9
2.4
3.3
4.8
Where Room Cavity Ratio (RCR) calculated as follows:
RCR for rectangular rooms = 5.0 x H x (L+W)
L x W
RCR for irregular-shaped rooms = 2.5 x H x P
A
Where:
L = Length of room
W = Width of room
H = Vertical distance from workplane to centreline of fixture
P = Perimeter of the room
A = A rea of the room
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Application Scenario
Luminaire Alteration
Lighting System/Luminaire Alterations include alterations where an existing
lighting system is modified, luminaires are replaced, or luminaires are
disconnected from the circuit, removed and reinstalled, whether in the same
location or installed elsewhere.
The former “trigger” to comply with
Title 24 was if 50% or more of the
luminaires were moved or replaced –
the new trigger is 10%.
Requirements to comply can be found in Table 141.0-E shown below.
Quantity of Affected Luminaires Resulting Lighting Power
per Building Space
for Each Enclosed Space
Applicable Mandatory
Control Provisions for
Each Enclosed Space
Sum total < 10% of existing luminaires
Existing provisions are permitted Existing controls are permitted
Existing LPD is permitted
For ≤ 85% of allowed LPD
per Section 140.6 Area Category Method
Sum total ≥ 10% of existing luminaires
For > 85% of allowed LPD
per Section 140.6 Area Category Method
Any alterations that change the area
of the enclosed space or the space
type or that increase the lighting power
in the space
Must comply with all T24 LPD and controls requirement
Applicable Multi-level
Lighting Control Requirements
for Each Altered Luminaire
Section 130.1 a and c
Rooms must be separately
switched, etc.
Two level lighting control2,
or comply with Table 130.1A
Section 130.1 a, c and d 3
Rooms must be separately
switched, etc., and control
daylight where applicable
Comply with Table 130.1A
Same as above, but also add
demand response capability
Comply with Table 130.1A
1. Affected luminaires include any luminaire that is changed, replaced, removed, relocated or connected to altered or revised wiring (there are some exceptions).
2. Two- level lighting control shall have at least one control step between 30% and 70% of design lighting power in a manner providing uniform illumination.
3. Daylight controls in accordance with Section 130.0(d) are required only for luminaires that are altered.
Luminaire Modifications-in-Place
To qualify as a Luminaire Modification-in-Place, luminaires shall only be modified by one or more
of the following methods:
•Replacing lamps and ballasts with like type or quantity in a manner that preserves the original luminaire listing.
• Changing the number or type of light source in a luminaire including: socket renewal, removal or relocation of sockets
or lampholders, and/or related wiring internal to the luminaire including the addition of safety disconnecting devices.
•Changing the optical system of a luminaire in part or in whole.
•Replacement of whole luminaires one for one in which the only electrical modification involves disconnecting the existing luminaire & reconnecting the replacement luminaire.
Requirements for Lumianire Modifications in Place in Table 141.0-F shown below.
Quantity of Affected Luminaires per Building Space per Annum
Resulting Lighting Power
for Each Enclosed Space
Where ≥ 10% of Existing
Luminaires are
“Modifications in Place”
Applicable Mandatory
Control Provisions for
Each Enclosed Space
Sum total < 40 luminaires
“Modifications in Place”
Existing LPD is permitted
Existing provisions are permitted Existing controls are permitted
For ≤ 85% of allowed LPD
per Section 140.6 Area Category Method
Sum total ≥ 40 luminaires
“Modifications in Place”
For > 85% of allowed LPD
per Section 140.6 Area Category Method
Applicable Multi-level
Lighting Control Requirements
for Each Altered Luminaire
Section 130.1 a and c
Rooms must be separately
switched, etc.
Two level lighting control 3,
or comply with Table 130.1A
Section 130.1 a, c and d 3
Rooms must be separately
switched, etc., and control
daylight where applicable
Comply with Table 130.1A
1. Control requirements only apply to enclosed spaces for which there are Luminaire Modifications-in-Place.
2. Multi-level controls are required only for luminaires which there are Luminaire Modifications-in-Place.
3. Two-evel lighting control shall have at least one control step between 30% and 70% of design LPD in a manner providing reasonably uniform illumination.
4. Daylight controls in accordance with Section 130.0(d) are required only for luminaires that are modified in place.
For compliance with this table, building space is defined as any of the following: A) a complete single story building, or
B) a complete floor of a multi-story building, or C) the entire space in a building of a single tenant under a single lease,
or 4) all of the common not leasable space in a single building.
9
Lighting Solutions
Exterior Lighting Control Requirements
Must be controlled by a photo-control or outdoor astronomical time switch that turns lights off when
daylight is available.
Lighting installed 24 feet and below must be controlled with motion sensors
•Must be capable of reducing lighting power by at least 40% but not exceeding 80%
•Or provide continuous dimming and employ auto-ON
•Maximum 1500 watts controlled together
–Exceptions: Pole mounted luminaires < 75W, non-pole mounted luminaires < 30 watts and linear lighting,
4W per lineal foot
Outdoor Sales Lighting - Auto control
•For frontage areas, lots and canopies
•Reduce lighting power by at least 40%, but not exceeding 80% during vacant times
Building facades, Ornamental hardscape and Outdoor dining lighting
•Central time-based zone lighting capable of reducing lighting power by 50%
All outdoor luminaires rated for use with lamps greater than 150 lamp watts must comply with
Backlight, Uplight, and Glare [collectively referred to as “BUG” in accordance with IES TM-15-11,
Addendum (A)] requirements.
•There are no Backlight requirements
• Maximum zonal lumen requirement for
Uplight is somewhat stricter than IES
TM-15 in Lighting Zone 2
•Maximum zonal lumens for Glare are
somewhat stricter than IES TM-15 for
Lighting Zones 1 and 2
OSRAM Solutions to Meet California Title 24 Exterior Control Requirements
IndoorENCELIUM ® Energy Managament System
ENCELIUM ®QUICKTRONIC ®
Sensors
Bi-Level Ballast
Automatic Shut-off Controls
X
X
Motion Sensor Control X
X
Multi-level Lighting Control X
X
10
QUICKTRONIC ®
Dimming Ballast
X
X
Lighting Solutions
Commissioning and Testing Requirements
Commissioning report on all functional performance tests
Title 24 requires commissioning report from the building owner. Projects issued a building permit on or after
July 1, 2014 must undergo acceptance testing for the following:
•Automatic daylighting controls
•Automatic time switch controls
• Occupancy sensors
•Outdoor lighting shut-off controls
• Outdoor motion sensors
• Demand response (DR) controls
Checklists can be found in Title 24 non-residential buildings compliance manual for indoor lighting, indoor lighting
controls, outdoor lighting and, outdoor lighting controls.
Lighting controls acceptance test technicians will have to be certified through approved training program (CALCTP)
11
Individual lighting energy management strategies can be implemented into a space to
reduce energy consumption. The benefit of utilizing an advanced lighting control system,
such as the ENCELIUM® Energy Management System (EMS), is individual strategies are
employed simultaneously where they work in concert with one another to meet the
governing strategy of the customer, resulting in optimized energy savings.
Time Scheduling
In areas of a building where occupancy control is not
appropriate, time scheduled switching or dimming of lights
can be employed for zones as small as a room or even an
individual light fixture based on a pre-set schedule.
(Potential Savings: 10 – 40%)
Daylighting
Through use of photo sensors, light levels are automatically
adjusted to account for ambient natural sunlight. Appropriate
light levels are maintained and artificial lighting is dimmed
when necessary.
(Potential Savings: 5-15%)
Task Tuning
With advanced lighting controls, light levels can now be
tuned by individual fixture or zone throughout a building or
facility to suit the particular tasks or use of a workspace.
This feature is particularly advantageous to save energy in
over-lit buildings.
(Potential Savings: 5-20%)
12
Occupancy/Vacancy Sensing
Occupancy sensors can be installed to eliminate energy
waste in spaces that are periodically unoccupied throughout
the day. Occupancy sensors assigned to individual fixtures
and groups will automatically turn on/off or dim fixtures
based on occupancy sensing.
(Potential Savings: 25-50%)
Personal Control
Studies have shown a correlation between personal dimming
control and higher job and environmental satisfaction among
office workers. Personal dimming control enables users to
control their workspace lighting and even pre-set scenes
based on their preferences right from their desktop.
(Potential Savings: 5-15%)
Load Shedding
Demand response employs load shedding, which entails
automatically reducing electrical loads in response to either
shave peak demand or reduce energy consumption during
periods where utility costs are higher.
(Potential Savings: 10%)
Application Scenario
Office Scenario
with and without Daylighting
The modern office uses an open plan to embrace
an increasingly mobile workforce. Workstations are
communal, with breakout rooms and private offices to
drive business conversation.
The lighting of the open office is soft and uniform, with
a 30 fc average light level, using LED for maximum efficiency
with a ceiling height of up to 12 feet. Undercabinet task
lights at each work station supplement the troffers to
achieve 50 fc at the work surface of each desk.
The high windows allow maximum daylight penetration and
provide scenic views for the workforce. Photosensors adjust
the dimmable LED troffers accordingly to save electricity
when daylight is available. Occupancy sensors in each area
reduce energy use by dimming the lights in unoccupied areas
of the office.
Translucent glass panels are used to maximize daylight
contribution to the private offices while still providing a quiet
and private space to conduct business. Acoustic ceilings with
integrated LED downlights help to dampen the sound and
create isolated meeting pods while 2x2 troffers provide ample
light in adjacent private offices.
The open plan office draws 0.9 W/ft2 at full power, but the
use of daylight harvesting, task tuning for presentations and
occupancy controls reduces the average consumption by
43% to 0.5 W/ft2.
Office Size: 2000 ft 2
Luminaires:
18 -2 X 2 LED troffers
29 -6" LED downlights
4 -LED decorative pendants 17 -LED undercabinet task lights
13
Lighting Solutions
ENCELIUM Energy Management Systems
®
The ENCELIUM Energy Management System (EMS) is comprised of the ENCELIUM
GreenBus II® communication network and the ENCELIUM Polaris 3D® software.
ENCELIUM ® GreenBus II is a networked communication system designed specifically for controlling lighting to
achieve maximum energy savings and optimum lighting
comfort. It enables cost-effective, individual dimming
control of all fixtures in a building by integrating
peripheral devices, including luminaires, switches
and sensors, with front-end servers via dedicated
ENCELIUM GreenBus II cabling, into a complete,
programmable lighting solution.
14
ENCELIUM ® Polaris 3D is the central control software
application used to commission, configure and manage the ENCELIUM EMS. It enables configuration of every system parameter in a building for each individual user or space and establishes the baseline settings. Polaris 3D offers the enhanced ability to analyze and update lighting layouts from an intuitive and easy-to-use computer interface. This brings lighting control to a whole new level, by giving facility managers the ability to easily control individual fixtures, groups of fixtures, entire floors, or even entire buildings right from their desktop
or laptop.
Lighting Solutions
The highly flexible, ENCELIUM® EMS network can integrate with phase-cut dimmable
sources, analog 0-10V dimming lighting systems and Digital Addressable Lighting Interface
(DALI) lighting systems on the same platform. Where DALI ballasts are preferred, the system
utilizes an ENCELIUM DALI Bridge as a gateway between the ENCELIUM GreenBus II® field
bus and the DALI ballasts. The DALI Bridge also allows for the mixing of Class 2 and Class 1
wiring within the same lighting system.
– Individual dimming control of thousands of fixtures
– Incorporates 0-10V dimming ballasts and DALI-based systems on the same platform
– Enables wireless sensors and switches with the EnOcean®RF gateway
– Integrates occupancy sensors, photosensors and relay-based controls into a complete, programmable lighting control system
When natural daylight is available, the ENCELIUM Energy Control Unit utilizing networked
photosensors, reduces electric light levels and maintains constant illumination when daylight
conditions fluctuate. Illuminance sensor parameters are configurable through the ENCELIUM
Polaris 3D software. Photosensors should be placed in areas where their line-of-sight is not
blocked by furniture or decoration.
ENCELIUM ® Sensors
For spaces more suited to conventional lighting controls, as opposed to larger spaces where
an advanced lighting control system, such as the ENCELIUM®EMS, would be implemented,
daylighting and occupancy/vacancy sensors are frequently employed to reduce lighting
energy consumption.
ENCELIUM ® offers a sensor line of low-voltage occupancy sensors.
– Full range of passive infrared (PIR) and dual technology (ultrasonic/PIR) low-voltage sensors available in both wall-mount and ceiling-mount configurations.
– PIR and ultrasonic line-voltage wall switches available in 120V, 277V and 347V power packs. Any of the low-voltage sensors can be converted to line-voltage use with a Power Pack or a unique Power Base Adaptor. All of the sensors are customized for use with
the ENCELIUM EMS with optimized factory presets for sensitivity and default time-outs.
ENCELIUM Sensors used within the ENCELIUM EMS architecture, can all be configured
through the ENCELIUM Polaris 3D® software to support integration of time scheduling,
zonal control and sharing of occupancy data with building management systems.
15
Lighting Solutions
Lighting Solutions to Meet Energy Codes
Lamps, Ballasts and Luminaires
OSRAM SYLVANIA offers both traditional and LED solutions to help meet energy code
requirements. Whether you are looking for retrofit solution or new LED luminaires, there
are many options to choose from depending on your lighting and design goals.
Troffers, Pendants and Cove Lighting
Product Type
Luminaire Type
High Efficiency QUICKTRONIC ® T5, T5HO & T8
Fixed Output and Controllable Electronic Systems
Linear LED
Retrofit Kits
LED Luminaires &
Luminaire Retrofit Kits
OEM Partner luminaires with
Troffers
Best T8 Lamps:
ULTRA HE® LED T8
0-10V dimmable
PrevaLED ® Linear & Area modules
OCTRON ® XPS
OCTRON XP ® & XP SUPERSAVER®and OPTOTRONIC® power supplies
OCTRON XP ® XL & XP XL SUPERSAVER®
Pendant
Best T5 HO Lamps:
ULTRA HE® LED T8
0-10V dimmable
PENTRON ® T5 HO SUPERSAVER®
PENTRON ® T5 HO XL & XL SUPERSAVER®
OEM Partner luminaires with
PrevaLED ® Linear modules and
OPTOTRONIC ® power supplies
Traxon ® Cove Light AC
Cove
Best T5 Lamps:
ULTRA HE® LED T8
0-10V dimmable
LINEARlight FLEX® systems
PENTRON ® T5 SUPERSAVER®
OEM Partner luminaires with
Best T8 Lamps:PrevaLED ® Linear modules and
®
OPTOTRONIC ® power supplies
OCTRON XPS
OCTRON XP ® & XP SUPERSAVER®
OCTRON XP ® XL & XP XL SUPERSAVER®
Lighting Solutions
QUICKTRONIC High Efficiency
Electronic Fluorescent Systems
®
High efficiency electronic fluorescent systems provide the same light with less
power compared to standard electronic ballasts providing up to 6% in energy
savings. Maximum energy savings up to 42% is possible when retrofitting 34W T12
magnetically ballasted systems with high efficiency T8 lamp and ballast systems.
High efficiency fluorescent ballasts are available for T5, T5HO and T8 fluorescent lamps. All high efficiency
ballasts have lamp striation control and meet the DOE 2011 ballast rule frequency and efficiency requirements
(BLE) effective November 14, 2014.
T5
T5HO &
T5HO HT
T8 & T8 HT
QUICKTRONIC ® Controllable Fluorescent Systems
Sophisticated to simple control is possible with QUICKTRONIC® electronic fluorescent
dimming systems available in DALI, 0-10V, bi-level and switchable ballasts options.
DALI
Digital addressable
dimming for
Fluorescent T8, T5,
TT5, T5HO and CFL
POWERSENSE ®
0-10V or line
voltage dimming
for Fluorescent T8,
T5, TT5 and T5HO
HELIOS™ & HELIOS 10
0-10V dimming
for Fluorescent
T8, T5HO and
Compact Fluorescent
QUICKSTEP ®
Bi-level dimming
for T8, T5 and
T5HO Fluorescent
Switchable
Four-lamp switchable
ballast for T5HO
Meet Energy Code Control Requirements
Incorporate into lighting management system
Switching, Bi-level dimming
17
Lighting Solutions
Solutions to Meet Energy Codes
Fluorescent System Comparisons
OCTRON ® T8 & QUICKTRONIC ® Ballast Options – 34W T12 Retrofit
Options
Fluorescent Lamp
Electronic Ballast
Ballast
Factor
Energy
Savings
% Mean
Lumens
Averag
Rated Life (hr)
BasicOCTRON ® 800 32W T8 Lamp 0.78 29% 108% QUICKTRONIC ® Professional QTP-ISL T8 Ballast
30,000
@ 12 hrs/start
0.72 33% 105% GoodOCTRON ® 800 XPS 32W T8 Lamp High efficiency QUICKTRONIC ® ®
PROStart QHE- PSX T8 Ballast 42,000
@ 12 hrs/start
0.78 42% 100%
BetterOCTRON ® 800 XP ® SUPERSAVER® 28W T8 Lamp or
98% OCTRON ® 800 XP ® PLUS SUPERSAVER® 28W T8 Lamp
High Efficiency QUICKTRONIC ® QHE-ISL T8 Ballast
40,000
46,000
@ 12 hrs/start
0.88 BestOCTRON ® 800 XP ® XL SUPERSAVER® 25W T8 Lamp
High Efficiency QUICKTRONIC ® POWERSENSE® QHE-DIM ®
T8 Ballast or QUICKTRONIC QUICK-STEP Bi-level Ballast
Covered by QUICK 7XL+™ System Warranty 37% at full
101% brightness
Add 10-75%
depending on
control strategy
84,000
@ 12 hrs/start
Energy
Savings
Average
Rated Life (hr)
OCTRON ® T8 & QUICKTRONIC ® Ballast Options – 32W T8 Retrofit
Options
Fluorescent Lamp
Electronic Ballast
Ballast
Factor
% Mean
Lumens
BasicOCTRON ® 800 32W T8 Lamp 0.78 14% 105% QUICKTRONIC ® Professional QTP-ISL T8 Ballast
30,000
@ 12 hrs/start
0.78 29% 97% GoodOCTRON ® 800 XPS 28W T8 Lamp High efficiency QUICKTRONIC ® QHE-ISL T8 Ballast
42,000
@ 12 hrs/start 0.88 24% 99%
BetterOCTRON ® 800 XP ® SUPERSAVER® 25W T8 Lamp
High Efficiency QUICKTRONIC ® PROStart ® QHE- PSN
Parallel wired T8 Ballast
40,000
@ 12 hrs/start
0.88 BestOCTRON ® 800 XP ® XL SUPERSAVER® 28W T8 Lamp or
OCTRON ® 800 XP ® XL SUPERSAVER® 25W T8 Lamp High Efficiency QUICKTRONIC ® POWERSENSE® QHE-DIM
T8 Ballast or QUICKTRONIC ® QUICK-STEP Bi-level Ballast Covered by QUICK 7XL+™ Warranty
84,000
@ 12 hrs/start
14% 24% at full
brightness
Add 10-75%
depending on
control strategy
106% 97%
Lighting Solutions
QUICK 7XL+™ System Warranty
QUICKTRONIC® PROStart® Electronic Systems coupled with long life SYLVANIA fluorescent lamps are
covered by the QUICK 7XL+™ warranty, the longest in the industry. This warranty covers PROStart® T8 and
T5HO fixed light output and dimming ballasts for 84 months when paired with OCTRON® 800 XP® XL
(eXtended Life) ECOLOGIC® 3 and PENTRON® HO XL ECOLOGIC® fluorescent lamps. As with the original
QUICK 60+® warranty, the QUICK 7XL+ warranty offers additional coverage for those lamps, and each time
customer group re-lamps after installing this system, the lamp portion of the warranty will extend for an
additional term.
System Lamp Ballast Warranty Period Lamp Warranty Period
QUICKTRONIC ® T8 PROStart ® OCTRON ® XP XL SS
84 mos.
(7 Years) 84 mos.
(7 years)
OCTRON ® XP XL
84 mos. (7 Years) 72 mos.
(6 Years)
QUICKTRONIC ® 54W T5/HO PROstart ®
84 mos.
(7 Years) 72 mos.
(6 Years)
PENTRON ® HO XL
QUICK 60+ ® System Warranty
QUICK 60+® is one of the industry’s most comprehensive system warranties. It starts with the ballast, and
when you purchase any QUICKTRONIC® ballast it’s warranted for a period of up to 60 months. Then, when
you add SYLVANIA lamps, you benefit from additional coverage for those lamps - that’s the PLUS.
Fluorescent lamps are covered for up to 5-years. Another benefit comes after you group re-lamp after
installing this system, as the lamps will be covered by the extended warranty.
ULTRA HE LED T8 Retrofit Kits
SYLVANIA ULTRA HE LED T8 retrofit kits
with lamps and drivers are available in
nominal 2 feet (10W - up to 1150 lumens),
and 4 feet (19W - up to 2450 lumens)
versions. They are energy saving, longerlife alternatives to traditional fluorescent
T12 or T8 lamps. Energy savings up 35%
over fluorescent systems and long life up
to 60,000 hours can be achieved. The
lamp design combines innovative optical
and mechanical design features achieving
a light distribution pattern that reduces
lumen loss from within traditional recessed
luminaires. 0-10V dimming down to 10%
is possible. Product is available in 3000K,
3500K, 4100K, and 5000K correlated
color temperatures. Retrofit Kits are DLC
Qualified for utility incentives.
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Lighting Solutions
Solutions for Indoor Lighting
Luminaires with OSRAM Inside
OSRAM’s high performance and innovative PrevaLED® Linear and Area LED modules
paired with OPTOTRONIC® programmable constant current LED power supplies can
be found in many troffer and pendant luminaires produced by our OEM partners.
These power supplies offer OEMs the flexibility to fine tune the light output for any
application requirement as well as set the dimming level, provide constant lumen
maintenance and set an end of life indicator for end users.
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Lighting Solutions
Downlights, Wall Washers, Wall Sconces & Tracklighting
Product Type
LED Downlight
LED Lamps
Luminaire Type
Luminaire & Retrofit
QUICKTRONIC ® Metal
Halide Electronic Systems
(Pulse Start)
QUICKTRONIC ®
Compact Fluorescent
Electronic Systems
Downlights
ULTRA RT6 HO
ULTRA HO PAR 38
12-14 ft ceilings
OEM Partner luminaires
with PrevaLED ® Cube
and OPTOTRONIC ®
power supplies
Best lamps:
METALARC ®
POWERBALL®
Ceramic PRO-TECH E17
METALARC PRO-TECH E17
----
Downlights
ULTRA RT6
9-12ft ceilings
ULTRA RT6 Gimbal
ULTRA RT5
ULTRA RT4
ULTRA RT4 Gimbal
Track Lighting
OEM Partner luminaires
with PrevaLED ® Core and OPTOTRONIC ®
power supplies
Wall Sconces or Wall Washer
Best lamps: Best lamps: Best lamps:
ULTRA PAR 38
METALARC ®DULUX® D/E SUPERSAVER®
ULTRA PAR 30
POWERBALL®DULUX® T/E SUPERSAVER®
ULTRA PAR 30LN
Ceramic T4, T6
DULUX® T/E XL
ULTRA PAR 20
ULTRA PAR 16
ULTRA PRO™ PAR 38
ULTRA PRO™ PAR 30
ULTRA PRO™ PAR 20
---ULTRA PRO HD™ PAR 38
ULTRA PRO HD™ PAR 30
ULTRA PRO HD™ PAR 20
OEM Partner luminaires
ULTRA A-lamps
ULTRA B10.B13
with PrevaLED ® Linear
modules and OPTOTRONIC ® power supplies
Best lamps:
DULUX® D/E SUPERSAVER®
DULUX® T/E SUPERSAVER®
DULUX® L SUPERSAVER®
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Lighting Solutions
Solutions for Indoor Lighting
SYLVANIA ULTRA LED PAR lamps and RT Downlight retrofit kits provide energy savings, longer life, reliability
and sustainability providing up to 82% in energy savings and long life of 25,000-50,000 hours (L70 ) for
maintenance cost savings. They are high-quality replacements for conventional light sources.
LED Lamps & Downlight Kits
ULTRA PRO™, ULTRA PRO HD™ & ULTRA PAR LED Lamps
SYLVANIA ULTRA & ULTRA PRO LED lamps are available in a wide range of traditional
technology equivalencies for replacement of 35W-90W halogen PAR lamps to meet all
your lighting application needs. Lamps are damp-rated for indoor use.
– ULTRA PRO and ULTRA PRO HD lamps are premium quality lamps providing the best beam performance for accent lighting applications. Lamps are available in 2700K or 3000K and 82 or 95 CRI versions in a variety of beam spreads. The high definition (HD) 95 CRI lamps are ideal for color critical applications.
– Standard ULTRA lamps provide good quality light and are ideal for all general lighting applications. Lamps are available 3000K with select types available in 2700K and 5000K with an 82 CRI.
ULTRA RT LED Downlights
ULTRA RT Downlight kits are offered in 4", 5" and 6" cans and are compatible with
most Insulated Ceiling (IC), Non-Insulated Ceiling (Non-IC), and Airtight (AT)
downlight housings with gimbal versions available in 4" and 6" types. Offering
includes RT6 in 700 lumens (10 watts) and 900 lumens (13 watts), RT5 625 lumens
(11W) and RT4 600 lumens (9W). SYLVANIA ULTRA downlight kits provide energy
savings up to 87% over the halogen equivalents they replace. All RT products are
offered in 2700 and 3000K correlated color temperatures. The RT6 is also offered
in 3500K and 4000K.
Downlight & Track Lighting
Luminaires with OSRAM Inside
OSRAM’s high performance and innovative PrevaLED® Cube, PrevaLED Core Z3,
and PrevaLED COIN 50 paired with OPTOTRONIC® programmable constant current
LED power supplies can be found in many downlights and track heads produced
by our OEM partners. These modules are available in industry recognizable form
factors with some meeting Zhaga requirements to allow for easy installation into
existing luminaire designs. The programmable power supplies offer OEMs the
flexibility to fine-tune the light output for any application requirement, as well as
setting the dimming level. For an integrated power supply module, the PrevaLED
Cube AC is available in the familiar form factor of its external power supply version.
For more information on these luminaires, please work with an OSRAM sales representative.
22
Lighting Solutions
Traditional Lighting
QUICKTRONIC® Compact Fluorescent Systems
SYLVANIA DULUX® D/E, T/E and L 4-pin base lamps are available in energy
saving SUPERSAVER® lamp versions for energy saving up to 10%. For optimal
performance pair these lamps with QUICKTRONIC® high efficiency compact
fluorescent ballasts. When DULUX compact fluorescent lamps are installed on
QUICKTRONIC ballasts, the system is covered by the QUICK 60+® warranty,
covering ballasts for up to 5-years and lamps up to 2-years.
QUICKTRONIC® MH Systems
METALARC® POWERBALL® ceramic metal halide lamps meet today’s color
critical applications, delivering long life, high efficacy, and superior color
rendering and color consistency over standard metal halide lamps. Medium
base E17 (50, 70, 100, 150W) lamps are ideal for downlighting for high ceilings.
While T4/GU6.5 base (15, 20 & 39W), lamps T4.5/G8.5 base (20, 39 and 70W)
lamps and T6/G12 base (39, 70, 100W) lamps operated on QUICKTRONIC MH
Electronic ballast are ideal for track and small aperture downlights.
High performance METALARC or METALARC POWEBALL metal halide 200W,
250W, 320W, 350W or 400W lamps for low bay and high bay applications
can be used in conjunction with QUICKTRONIC® MH dimmable
electronic ballasts to save energy up to 17% in energy over
magnetically ballasted systems plus additional energy
saving with dimming. Bi-level dimming or 0-10V
continuous dimming 100%-50% is possible.
23
Lighting Solutions
California Quality LED Lamp Specification
Voluntary LED lamp specification created by the California Energy Commission
(CEC) and California Public Utilities Commission (CPUC) instituted in 2014 for
omnidirectional and directional lamps. The desired intent is to help accelerate
consumer adoption of LED technology while avoiding CFL lamp mistakes.
Many CA utilities are using this specification for utility incentive programs to
qualify lamps.
Overview of Lamp Specifications:
– CRI > 90, R9 > 50
– CCT of 2700 or 3000K
– 4-step MacAdam ellipse color tolerance
– Dimmable to < 10% - continuous, flicker-free, noise-free
– Power factor > 0.9
– Life > 25,000 hrs (residential), > 35,000 hrs (commercial)
– Minimum 5-year free replacement warranty
– No minimum efficacy threshold
– Photometric distribution:
•Omnidirectional – same as ENERGY STAR Lamps v.1, draft 2
•Directional – specific requirements for spot & flood beam angles
Solutions for
Outdoor Lighting
OSRAM offers a variety outdoor dimmable lighting products including
a wide variety of LED luminaires as well as high intensity discharge and
fluorescent induction lamp and ballast systems for use in a wide variety
of outdoor luminaires.
Surface, Pole and Wall-Mounted Exterior Luminaires
Product Type
Luminaire Type
QUICKTRONIC ® High Intensity Discharge
Electronic Systems (Pulse Start)
Square Canopy
METALARC ® Metal Halide Lamps with
Best lamps: METALARC Pulse Start
METALARC POWERBALL® Ceramic
Shoe Box
LUMALUX® High Pressure Sodium Lamps
with electronic ballast
Post Top
Best lamps:
LUMALUX PLUS® XL
LUMALUX PLUS®
24
Dimmable systems 0 -10V or 100%- 50% dim
QUICKTRONIC ® ICE Induction
Fluorescent Electronic Systems
ICETRON ® lamp and electronic ballast
electronic ballasts
Raceway & circular shapes
Fixed output and 100W dimmable
systems 0 -10V or 100%- 50% dim
Lighting Solutions
Luminaires with OSRAM Inside
OSRAM’s high performance PrevaLED® Compact modules paired with OPTOTRONIC®
Outdoor Programmable constant current LED power supplies are ideal for many
outdoor luminaire designs. These modules are available in a Zhaga Book 4 form
factor allowing for easy installation into existing luminaire designs. The outdoor
programmable power supplies offer OEMs the flexibility to fine-tune the light output
for any application requirement. These power supplies also allow OEMs to program
the dimming level, activate the AstroDIM autonomous control and LEDset feature,
provide constant lumen maintenance, set an end-of-life indicator for end users, and
set the LED thermal protection.
For more information on these luminaires, please work with an OSRAM sales representative.
Traditional Lighting
QUICKTRONIC® ICETRON® Systems
Electrodeless ICETRON® induction systems offer a high quality white light lamp
with color consistency throughout the long 100,000 hour rated life thereby reducing
maintenance cost without giving up light or color. Available in 40W, 70W, 100W, 150W
and 200W systems in 3500K, 4100K, 5000K correlated color temperatures, these
systems are ideal for use in post top, shoebox, canopy and low or high bay luminaires.
QUICKTRONIC® MH-HPS Outdoor Systems
High performance METALARC® or METALARC® POWERBALL® metal halide 200W,
250W, 320W, 350W or 400W lamps for low bay and high bay applications can
be used in conjunction with QUICKTRONIC® MH-Outdoor dimmable electronic
ballasts to save energy up to 17% in energy over magnetically ballasted systems,
plus additional energy saving with dimming. Bi-level dimming or 0-10V continuous
dimming 100%-50% is possible.
LUMALUX® high pressure sodium 100W, 150W and 200W lamps can be operated
on the QUICKTRONIC MH Outdoor ballast. LUMALUX PLUS® XL non-cycling and
instant restrike (70W, 100W, 150W, 200W, 310W & 400W ) lamps with an average
rated life up to 80,000 hours provide long life similar to LED systems and are direct
replacements for all high pressure sodium lamps.
25
Utility Rebates
Utility Rebates
Help lower initial cost to install!
Utility incentives nation-wide are expected to grow by 16 - 20% per year thru 2020
focusing on new lighting technologies and controls. There are 10+ prescriptive
lighting programs and many more custom programs particularly with LED luminaires
at the 70+ utility companies/municipalities in the state of California. About 90% of the
incentive programs recognize only approved products that meet certain performance
criteria. These criteria include CEE standards for high performance fluorescent
lamp and ballast systems, Design Lights Consortium (DLC) qualified luminaires and
ENERGY STAR criteria for lamps and decorative luminaires as well as installation of
specific controls for additional rebate money.
Commercial/Industrial Utility Incentive Programs
The dark green utility service areas
offer lighting incentives by service
area, the lighter green shows state
programs exists and the white
geographies do not have an
incentive program at the moment.
Snapshot for Prescriptive Rebates 2014
Product Approx. Number of Rebates Average Rebate Amount
LED Replacement 610
$12
LED Downlight Replacement 680
$20
LED Accent Lighting Track Heads 305
$21
High Performance Super T8 Luminaire 900
$10
Wallbox Occupancy Sensors 890
$20
Contact your OSRAM SYLVANIA representative for available rebates in your area.
Source: SYLVANIA Utility Rebate Database
26
Lighting Services
SYLVANIA Lighting Services
SYLVANIA Lighting Services (SLS) is an industry leader in energy management
solutions for interior and exterior lighting systems. With over 40 years of experience,
we are focused on delivering sustainable energy efficient lighting upgrade projects and
value added services for all vertical markets. As experts in LED lighting, design and
rebate management, we can help your company customize a solution with the latest
technologies to meet energy codes, reduce energy consumption and ultimately
save you money. SLS provides access to new energy efficient lighting products, audit
and survey capabilities, project management, as well as the
latest lighting control system design, installation and commissioning.
Here are some of the energy-saving solutions SLS has to offer:
–Energy and lighting audits and surveys
–Energy management programs
–Lighting design and management
–Lighting systems controls integration and commissioning
–Utility program management and rebate optimization
–Financing programs and performance contracts
–National project management and one point of contact
–Retrofit and relamp programs
27
www.osram-americas.com
Printed on recycled paper with 30% recycled content including
30% Post Consumer Waste and is acid and elemental chlorine free.
Americas Headquarters
OSRAM SYLVANIA Inc.
100 Endicott Street
Danvers, MA 01923 USA
Phone 1-800-LIGHTBULB (1-800-544-4828)
www.sylvania.com
SYLVANIA is a registered trademark of OSRAM SYLVANIA Inc.
OSRAM, SYLVANIA, ENCELIUM, TRAXON, QUICKTRONIC,OPTOTRONIC, PrevaLED, ICETRON, QUICK 60 +, Polaris 3D,
GreenBus II, METALARC, POWERBALL, ULTRA HE, OCTRON, LINERlight Flex, PENTRON, SUPERSAVER POWRSENSE,
LUMALUX PLUS, PROStart, ECOLOGIC, DULUX, are registered trademarks of OSRAM SYLVANIA, Inc.
QUICK 7XL+, UTLRA PRO, ULTRA PRO HD, are trademarks of OSRAM SYLVANIA, Inc.
Specifications subject to change without notice.
© 2014 OSRAM SYLVANIA
California Title 24 - 2013 Brochure - August 2014
LEGIS02