1. CANLYTE SOLID STATE LIGHTING
Canlyte with Philips, Lightolier SSL, Calculite, Color Kinetics and Keene LED products is positioned to be the leading company for SSL products in the Canadian market

2. Calculite Solid-State Downlighting
Lightolier Specification Grade White Light LEDs for General Illumination
Calculite has a long history of innovation in down lighting. Our motto has always been do it first or do it better. In this launch we do both we do it first and we do it better

3. LightFair 2009 Award Most Innovative Product of the Year
LFI’s Highest Honour
Recognizes the Best of the Best in Lighting

4. IES Recommended Standards
Designed & Tested to IES Recommended Standards
IES LM-80
IES Approved Method for Lumen Depreciation Testing of LED Light Sources
IES LM-79
IES Approved Method for the Electrical and Photometric Measurements of Solid-State Lighting Products

5. Lightolier’s LED Philosophy
Develop application-specific solutions
Take advantage of unique benefits of LEDs
Provide new Value propositions for our customers
Create families of products
Start designing from scratch with a clean sheet Don’t just stick LED’s in existing fixtures
Match the look and feel of existing products
Integrate seamlessly with interior package

6. Lightolier SSL System Approach
Products must not be evaluated based on the rated performance of the individual LEDs or other components.
Lightolier’s System Approach involves the concurrent design of power conversion, LED circuits, thermal management and optics.
This system approach will guarantee that all components will deliver optimum performance and long life.
Lightolier engineering used all of the most modern tools to design their new SSL products. Being part of a totally vertically integrated lighting company we used all of the Lumiled, Philips and Lightolier design resources to design for optimum performance.
Concurrent design means we have several teams working on different aspects all towards a common design goal

7. Lightolier First Introduction to Solid State Lighting
Recessed & Track Colour Wash Linear
Recessed Matrix Wall Wash
Cove Colour & White
Markers
Task Light
Lightolier already launched a comprehensive collection of lighting tools. These included color wash a RGBA colour changing system that can produce white and colour lighting effects. In addition we introduced a complete line of step lights, marker lights and task lights each with unique value propositions for your specification efforts.

8. Traditional Phosphor Converted LED
Almost all white LEDs use a royal blue chip coated with phosphor
Difficult to maintain consistent coating thickness from chip to chip
Phosphor emits light in all directions when converted
Up to 60% of the light is reflected backwards into the chip
Back-reflected light absorbed by the chip and creates additional heat
Technically the phosphor based white LEDs encapsulate InGaN Indium Gallium Nitride blue LEDs inside of a phosphor coated epoxy. A common yellow phosphor material is cerium-doped yttrium aluminium garnet (Ce3+:YAG).
There are inefficiencies in this system as light is reflected back into the chip causing increased heat.
White Light
Encapsulant
Phosphor
Coating
Absorbed
Light
Heat
Blue chip

9. The Challenge of LED Binning
The performance of each LED is unique
White LED’s are typically classified as warm (2700K-3500K), neutral (3500K-4500K) and cool (4500K+)
Each Colour consists of several different “bins”
Each LED is binned by three measurements: flux (output), Colour and forward voltage (power)
Each manufacturer has different bins
No two LEDs are the same. This requires LEDs to be sorted in a process called binning. As we try and create white light there are challenges creating specification downlights from white leds and also maintaining consistent color and light levels between fixtures.

10. LED Colour Consistency
In any array, you will have a mixture of LEDs with varying flux and Colour
LEDs also exhibit Colour shift over life which increases with higher junction temperatures
To achieve uniformity, you need to mix the light from the different LEDs together using a mixing chamber and/or optics
As you can see color differences can be considerable. A solution is to mix many leds together to achieve consistent color.

11. Elements of the Calculite Remote Phosphor Technology
Heat sink
Calculite 4” trim
Royal Blue Led Array
The following are the elements of the new remote phosphor design
Mixing Chamber
Phosphor and glass lens assembly

12. Calculite LED Array
Royal Blue LED emitters are mounted on a metal clad printed circuit board (PCB) in an array
Metal core PCBs conduct heat better due to lower thermal resistance.
The LED array uses Royal Blue leds as the Blue pump portion for generating white light. These are high efficacy led components.

13. LED Array Calculite 20W LED board = 16 LEDs in series (8 for 10W)
Array is connected to the drive circuit with a locking modular plug
There are 2 arrays one for the 20 watt and one for the 10 watt. These LEDS are wired in series which is the most efficient method to wire the LEDs. The voltage across 16 LEDs requires a class 1 driver circuit as it is over 42 volts.

14. Calculite Mixing Chamber
Back-reflected light is redirected out of the luminaire by highly reflective chamber
The shallow mixing chamber helps to redirect light out preventing light being reabsorbed by the LED and causing an increase in junction temperature

15. Calculite Remote Phosphor
The phosphor is exposed to less heat
Increasing conversion efficiency
Uniform emitting surface
No visibility of individual LEDs
Phosphor works more efficiently when it is cool and because the phosphor is not in direct contact with the LEDS it runs cooler. Unlike most competitors the Calculite light engine is not visible as points of light. There is no visibility of the individual LEDs. The phosphor is yellow in the off state and of course white in the on state.

16. The Solution Calculite Remote Phosphor
Remote phosphor approach
Increases efficiency by up to 20%
50,000 hour life (L70)
Designed & Tested to IES Recommended Standards
LM-80-08:
IESNA Approved Method For Measuring Lumen Depreciation of LED Light Sources
Lightolier uses a revolutionary new LED platform called remote Phosphor. This technology is 20% more efficient and has an L70 life of 50,000 houts. Lifetime is estimated using the new LM 80 process.

17. Calculite Phosphor and Glass Lens Assembly
Phosphor film is available in 3000k and 4000k Colour temperatures
Soon available in 2700k and 3500k
Film is bonded to glass lens
Glass lens held onto mixing chamber with a metal ring
Assembly wet location approved
The phosphor lens assembly is made up of a phosphor film laminated to a glass lens. This assembly is held together by a metal ring. The complete assembly is sealed and provides a wet location rating for the all Calculite remote phosphor downlights.

18. Colour Temperature
Remote Phosphor Technology convert Blue LED light to an architecturally preferred 80 CRI
3000K Colour temperature results in a system efficacy of 50 lumens per watt
4000K Colour temperature results in a 10% increase in light level
Because of the blue pump the 4000k source will produce 10% more light than the 3000k source. Both have an 80 CRI. The efficacy of the total system out of the fixture is 50 lumens per watt. This is increasing as the LEDs used in the array are improved.

19. Calculite Optics Designed with Calculite Comfort Optics
Delivers true 50º physical and reflected cutoff
Reduced aperture brightness
The system is still designed to the exacting standards of Calculite with a 50 degree cutoff. The reflector has a special curve to optimize light production from this light form.

20. Calculite Heat Sink
Heat Sink Shape provides increased surface area due to curved fins this improves the rate of heat transfer
Overhanging fins helpful in spreading heat and natural convection
Black paint has the highest coefficient of radiation. Helps radiative heat transfer.
Calculite SSL heat management provides high system performance
The heat sink has 4 components a specially die cast finned component a material used to bond between the LED array and the heat sink the metal clad PCB and finally the reflector optic itself which we will talk about later

21. Thermal Design Approach
Use of aluminum spun reflector as part of integral heat sink (patent pending)
Reflector is attached to the front side of the metal core PCB
Heat conducted from the PCB to the reflector
The ambient on the reflector side is cooler than the plenum side which helps thermal dissipation by natural chimney affect
The reflector is bonded to the heat sink and LED array during assembly. Lightolier has created a patent pending technology where the reflector is a significant part of the heat removal equation. Lightolier uses advanced simulation tools to model its heat sinks including air flow analysis on the total system. You can see how air entering the fixture flows through and carries away with it heat produced by the LED array.

22. 6” Performance in a 4” Aperture
6 inch Vertical lamp
6 inch Horizontal lamp
4 inch
There is a great energy story surrounding this technology. Comparing the 4” led downlight to a variety of 6” vertical lamp and horizontal lamp downlights you can see there is a significant improvement in lumens out of the fixture from 36 lumens per watt to 50+ lumens per watt. This comes from a higher optical and electrical efficiency.
Calculite remote phosphor has
Higher driver efficiency and lower initial power
Higher optical efficiency
Better lamp maintenance

23. Project Comparison CFL to LED
Calculite 20W LED downlight compared to a 26W CFL
Equal illuminance
Lighting power density reduction
1.1 W/SF to 0.74 W/SF
25% reduction in energy consumption
In the end you have a 25% + reduction in power density when you compare a CFL project to a n LED project.

24. Elements of Calculite Remote Phosphor Frame System
The frame and drive system are all Calculite quality with the featires required to support a quality installation process.
Powercore driver
Flexible mounting Calculite frame

25. Light Engine Assembly to Frame-In-Kit
The light engine itself which includes the reflector optic connects to the frame and driver with a modular connector. The connector is locked in place with a simple screwed plate.

26. Calculite Powercore SSL Driver
The preferred method of regulating LED drive current is to drive the LED with a constant-current DC power source
The light output of an LED is proportional to its forward current
There are currently no ANSI standards for power supplies so it is critical that the driver match the electrical characteristics of the LED or array it is driving
There is energy lost in the power conversion
Calculite Driver is Class 1 Philips Powercore technology ( 95% efficient)
Powercore drivers are designed to maximize efficiency for each application
The driver system was designed specifically for Calculite and uses the Color Kinetics Powercore technology. This technology won the award in 2008 for the best patent in the world. The driver system is 95% efficient

27. Calculite Powercore SSL Driver
Electronic Power Supply :
120 or 277V
347V (Step Down Transformer)
Encased (same driver for both 20W & 10W)
Overload and short circuit protection, thermal protect against overheating
Low noise potted construction for even demanding theatre applications
Minimum Starting Temperature :
-20º C
Dimmable with standard electronic Low Voltage (ELV) dimmers.
The driver system is available in 120,277 and 347 volt configurations. The potted construction makes the system silent and the same driver can be configured in the factory for 10 watt or 20 watt LED arrays.

28. Dimming Capability
In comparison to compact fluorescent products which require specific, and often expensive, dimming controls Calculite solid-state down lights can be dimmed down as low as 5%* using off-the-shelf electronic dimmers.
The technology is dimmable using standard electronic dimmers.

29. LED Life
Lifetimes of 50,000 hours life or more are possible with a properly designed system
Although failures are possible, LEDs typically do not burn out, light output degrades over time
The degradation rate increases with increased junction temperature
Phosphors degrade with time and temperature and encapsulant materials can yellow over time
For general illumination, life is generally measured to 70% lumen maintenance (L70) or when light output decreases to 70% of initial lumens
Designed & Tested to IES Recommended Standards
LM-80-08: IESNA Approved Method For Measuring Lumen Depreciation of LED Light Sources
Calculite remote phosphor is rated at 50,000 hours at L70 or 70% light output.. This rating is based on IESNA LM80 recommended standards for testing.

30. Industry Best Warranty
Lightolier is emphasizing confidence in our product and a commitment to our specifiers with an industry best 5 year warranty covering all components. Conventional equipment typically offers separate warranties for the lamp and the ballast.
Assembled in State of the Art clean room in Lachine, Quebec
Calculite remote phosphor is rated at 50,000 hours at L70 or 70% light output.. This rating is based on IESNA LM80 recommended standards for testing.

31. Calculite Rounds 4 ½” aperture Downlight
4 ½” aperture Open Wall Washer
The round downlight and wall wash come in 20 watt and 10 watt versions and have excellent optical performance. The wall wash uses an open wall wash technology with a scooped window optic
C420LEDDL40CCLW 20 watt
C420LEDWW40CCLW 20 watt
C410LEDDL40CCLW 10 watt
C410LEDWW40CCLW 10 watt

32. Round Reflector Finishes
The system is available in a variety of finishes. The standard finish is CCL comfort clear with a white self flange.

33. Calculite Squares 4 ½” x 4 ½” aperture Lens Wall Washer
4 ½” x 4 ½” aperture Downlight
4 ½” x 4 ½” aperture Lens Wall Washer
The square downlights are 4 ½” x 4 ½”. The square wall wash uses a lens wall wash optic and is a great performer.
C4X420LEDDL40CCLW 20 watt
C4X420LEDWW40CCLW 20 watt
C4X410LEDDL40CCLW 10 watt
C4X410LEDWW40CCLW 10 watt

34. Square Reflector Finishes
The squares are also available ion a variety of finishes but again comfort clear with a white painted flange is the standard.

35. New Construction Frames
Utilizes Calculite HID platform
Modified version for square
Non-IC only
Light engine connects to power supply via modular plug
Total depth:
Round aperture: 6”
Square aperture: 5 ¾”
2” thick ceiling capable
Round adjustment with frame
Square adjustment with trim
Available in 120V, 277V and 347V with custom step down
C420LED1
There is currently not an IC frame but this also is under development.
C4X420LED1

36. Retrofit Kits Convert existing 4” & 6” installations
Screw-in version 120 volt
Medium screw base socket without additional wiring
Can easily convert existing Calculite TRM7053 & TRM7054 incandescent installations to a sustainable, energy-efficient solution
J-box version: convert by re-wiring at j-box. 120V and 277V
CU20LEDS1
CU20LEDJ1
The conversion kit is designed and approved for conversion for existing Lightolier products in the field. The medium screw base conversion kit can be used for incandescent frames in the field while the access plate kit simply snaps in place on an existing CFL Calculite frame. There are 6” conversion kits available as well for the popular 7053 and 7054 trims

37. Remodeler Frames Available in 4 ½” ( 6” to follow)
For existing Non-IC applications
Hinged J-Box design permits easy insertion through ceilings
2” thick ceiling capable
Tool-less installation : 3 tooth (ratchet) clips secure ring to ceiling
Integral Driver casing and J-box ensure cool operation
Available in 120V, 277V and 347V with custom step down
C420LEDR1
The remodeler frames use a new remodeling ring technology and are available in all voltages

38. Product Options Accepts 4 ½” Vetro decorative accessories
The system is compatible with all of the vetro 4 ½” decorative downlights. The LED light works great with these high quality acrylic and glass trims

39. Surface Cylinders For indoor applications (phase 1)
Outdoor IP66 (phase 2) in process
Integral Driver available in 120V & 277V (no 347 step down for now)
Available in 5 different mounting configurations
The surface cylinder uses a different heat sink design. The ring is the heat sink and provides air contact with the outside. The optics and engine are identical to the downlight.
C420LEDCW30CCL1

40. The Calculite LED Promises
Performance
1,000 System Lumens
50 Lumens / Watt
Reliability
50,000 Hours
5 Year Warranty
Wet Location
Aesthetics
Calculite Optics
Cut-off
Glare Control
Price
Total Cost of Ownership story
Variety
10 watt and 20 watt
Round and Square Construction
Downlights and Wall Washers
Five Finishes
3 flanges
Calculite remote phosphor is the best SSL downlighting system available and will surely meet all of your specification needs.

41. Our LED Promise Low Cost of Ownership Quality of Light Reliability
Energy Savings
High Fixture Efficacy
Quality of Light
Great Cutoff
Uniformity & Consistency
Reliability
Industry Leading 5 Year Warranty
Tested to IES Standards & Testing (LM-79 & LM-80)
Long Life (L70)

42. CANLYTE SOLID STATE LIGHTING
Canlyte with Philips, Lightolier SSL, Calculite, Color Kinetics and Keene LED products is positioned to be the leading company for SSL products in the Canadian market