3rd session - lamps - mcgill university · 2007-09-26 · microsoft powerpoint - 3rd session -...
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Lamps
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Lamps
Pallette
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Frequency of Visible Light
- Correlated Color Temperature (CCT)
color appearance of various light sources
- Color Rendering Index (CRI)how a light source renders the color of objects
The Color of Light Sources
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The higher the color temperature (CCT), the“cooler”
the color of the lamp is in appearance.
2700 o 4100 o2200 o
The lower the color temperature (CCT) the“warmer”
the color the lamp is in appearance.
This color temperature is measured in Kelvin.
Burning Temperature
Kelvin Range 3000K 3500K 4100K 5000K
Associated Effects and Moods
Friendly Intimate Personal Exclusive
Friendly Inviting
Non-threatening
Neat Clean
Efficient
Bright Alert
Exacting coloration
Appropriate Applications
Restaurants Hotels Lobbies
Boutiques Libraries Office
areas Retail stores
Public reception areas
Showrooms Bookstores Office areas
Office areas Conference
rooms Classrooms
Mass merchandisers
Hospitals
Galleries Museums
Jewelry stores Medical
examination areas Printing
companies
COLOR
TEMPERATURE WARM NEUTRAL COOL DAYLIGHT
Correlated Color Temperature
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Correlated Color Temperature
Measures the effect of a light source on the perceived object and its surface.High CRI light makes virtually all colors look natural and vibrant.Low CRI causes some colors to appear washed out or even take on a completely different hue.
Color Rendering Index
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Color Rendering Index
COOL MIDRANGE WARM
4100ºk 3000ºk 2700ºk80CRI 80CRI 80CRI
CCT:CRI:
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Incandescent 2850 º 100
Fluorescent 2700º-5000 º 51-90
HID- MH (master color) 3000 º -4000 º 92
MH (standard) 3700 º -5000 º 65-70
HPS (color corrected) 2700 º 85
HPS 2100 º-2700 º low 20’s
LPS 1700 º N/A
MV 4000 º 20-45
CCT CRI
Light Direction
Light travels in a straight line…radiates out from the source
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Light Direction of Clear Lamps
Light travels in a straight line…radiates out from the source
…. add a clear enclosure or envelope around the source, the light will still travel in a straight line.
Light Direction of Frosted Lamps
Light travels in a straight line…radiates out from the source
…. add a coated or frosted enclosure or envelope around the source, the direction of light will bend and radiate from the surface of the enclosure
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Reflector Contours
CircularSpecular
Rays diverge through light source
Circle
Reflector
Reflector Contours
ParabolicSpecular
Rays parallel
Parabola
Reflector
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Reflector Contours
EllipsoidalSpecular
Rays converge
2 foci
Reflector
General Definitions
Intensity:
The light emitted in a specific direction by a source. Properly called “luminous intensity” or “flux per solid angle in a given direction”, it is measured in candelas (cd). Intensity in a succession of directions is plotted on a distribution curve or polar graph.
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General Definitions
Flux:
The light emitted in all directions by a source. Properly called luminous flux or “time rate flow of light”, it is measured in lumens (lm).
General Definitions
Illuminance:
The density of light on a surface. Properly defined as “density of flux incident on a surface measured perpendicular to the surface”, it is measured in footcandles (fc).
Note, metric unit is lux (lx) aproximately 1/10 of a footcandle.
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General Definitions
Luminance:
The accepted term for light that us reflected from a surface in a given direction (back towards the eyes). Properly defined as “intensity of flux leaving a surface in a given direction”, it is measured in candelas per square foot (cd/sqft).
General Definitions
Exitance:
The total quantity of light emitted, reflected, or transmitted in all directions from a surface. Properly defined as “density of flux leaving a surface”, it is measured in lumens per square foor (lm/sqft).
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Linear CompactFluorescent
INCANDESCENTLAMPS
DISCHARGELAMPS
Standard Incandescent
Lamps
HalogenLamps
FluorescentLamps
Metal Halide
Low Pressure SodiumMercury
HighPressure Sodium
Lamps for General use
LED Induction
HIDLamps
How to read a lamp catalog
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How to read a lamp catalog
Incandescent
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Incandescent
Attributes and Options - Incandescent
•Varied wattages, sizes, shapes, and bases•Finishes
–Clear–Inside Frosted–Coated (Softwhite)
•Economical•Short lamp life•Warm Light•Dimming
–Yes
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Color Spectrum – Daylight & Incandescent
Color Spectrum – Daylight & Incandescent
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Halogen (Incandescent)
Attributes and Options - Halogen
•Varied wattages, sizes, shapes, and bases•Finishes
–Clear–Inside Frosted–Coated (Softwhite)
•Small Sources – Ideal for controlled optics•Often low voltage and require transformers•White Light•Dimming
–Yes
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How Halogen Lamps Work
Halogen Cycle
Fluorescent
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Fluorescent
Color Spectrum - Fluorescent
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Attributes and Options - Fluorescent
•Varied wattages, sizes, shapes, and bases•Finishes
–Coated only – coating determines color•Operates with specific Ballast•Long Life•Cool Burning•Dimming
–Yes, with dimming ballast and specific dimmers
BALLAST
Ballasts can be electromagnetic (They contain heavy coils,transformers and capacitors)
ORBallasts can be electronic (They are lightweight,
efficient and operate at high frequency)
The Uniqueness RuleBallast are made specifically for the lamp they are designed to operate. You cannot simply replace a lamp with a different type without changing the ballast. Since it regulates the voltage it is designed for a specific lamp type and wattage.Each Lamp operates on a Unique Ballast!!
Ballasts perform three main functions
They start the lamp.They take the line voltage (120/240/277/480) and step it up or down as required by the lamp. They make sure the lamp operates in a stable mode by regulating the current
Ballast
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Fluorescent Lamp Design
Rapid start and starter switch fluorescent bulbs have two pins that slide against two contact points in an electrical circuit.
Compact Fluorescent
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Induction Lamps
A Discharge VesselB Tube with Power CouplerC Electronic Ballast
Similar in technology to Fluorescent:
1 – Ballast produces a regulated voltage
2 – The power coupler acts an antenna, producing a high frequency electromagnetic field
3 – Mercury vapour in the discharge vessel produces UV light which is then shifted into the visual spectrum by phosphors
-Up to 400W-3500K-4100K, 80CRI-May last up to 10 yrs (100 000hrs)
Icetron (Osram) QL (Philips)
High Intensity Discharge
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HID
Attributes and Options - HID
•Varied wattages, sizes, shapes, and bases•Finishes
–Clear–Coated –Colored
•Operates with Ballast•Burning Position Critical•Dimming
–No–Multi-level Switching possible
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Color Spectrum – Metal Halide
Color Spectrum – High Pressure Sodium
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High Intensity Discharge
High Intensity Discharge
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The burning position defines the position in which lamps may or may not be operated. A combination of a letter and a number is used in which the letter indicates the datum alignment and the number is the half-angle of the recommended range.
There are three basic datum positions:
vertical, base up vertical, base down horizontal
Burning Position
How LED’s Work
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When the negative end of the circuit is hooked up to the N-type layer and the positive end is hooked up to P-type
layer, electrons and holes start moving and the depletion zone disappears.
When the positive end of the circuit is hooked up to the N-type layer and the
negative end is hooked up to the P-type layer, free electrons collect on one end of the diode and holes collect on the other.
The depletion zone gets bigger.
The interaction between electrons and holes in this setup has an interesting side effect -- it generates light!
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Paul Brown Stadium
MR16 Illuminance diagram MR16 downlight Polar Plot
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Linear fluorescent uplight