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3. AN INTRODUCTION TO
INDUCTION LIGHTING
WHAT IS INDUCTION LIGHTING?
A hybrid fluorescent lamp technology first introduced in
1891 that eliminates the need for electrodes and filaments;
generating light by means of a high frequency transmission
of energy combined with a gas discharge.
As with conventional fluorescent lamps, varying the composition of the
phosphors coated onto the inside of induction lamps, allows for models with
different color temperatures. Unlike conventional fluorescent technology there
are no failures caused by filament erosion, vibration, or seal breach.
EXTERNAL INDUCTOR LAMP
Visible Light
UV Light
Glass Envelope/Tube
Phosphor Coating
Inert Gas Fill
Mercury Amalgam
Inductor Assembly
Induction Coil
Magnetic Field
Wires to Connect Ballast
Inert Gas Fill
Phosphor Coating Inside Lamp
Glass Envelope/Tube
UV Light
Visible Light
HOW DOES INDUCTION LIGHTING WORK?
EXTERNAL INDUCTOR LAMPS
External magnetic induction lamps are essentially fluorescent lamps with
electromagnets wrapped around a section of the lamp tube. High frequency energy,
from the electronic ballast (generator), is sent through wires, which are wrapped in
a coil around the ferrite inductor, creating a powerful magnet.
The induction coil produces a very strong magnetic field which travels through
the glass and excites the mercury atoms in the interior which are provided by a
pellet of amalgam (a solid form of mercury). The mercury atoms emit UV light and,
just as in a fluorescent tube, the UV light is up-converted to visible light by the
phosphor coating on the inside of the tube. The system can be considered as a
type of transformer where the inductor is the primary coil while the mercury atoms
within the envelope/tube form a single-turn secondary coil.
4. INTERNAL INDUCTOR LAMPS
In a variation of this technology, Internal magnetic induction lamps use
a light bulb shaped glass lamp, which has a test-tube like re-entrant
central cavity. This cavity is coated with phosphors on the interior, filled
with inert gas and a pellet of mercury amalgam. The induction coil is
wound around a ferrite shaft which is inserted into the central test-tube
like cavity. The inductor is excited by high frequency energy provided
by an external electronic ballast (generator) causing a magnetic field to
penetrate the glass and excite the mercury atoms, which emit UV light,
that is converted to visible light by the phosphor coating.
INTERNAL INDUCTOR LAMP
Visible Light
UV Light
Glass Envelope/Tube
Phosphor Coating Inside
Envelope/Bulb
Inert Gas Fill
Induction Coil
Magnetic Field
Inductor Assembly
Reentrant Glass Tube
Mercury Amalgam
Wires To Connect Ballast
Base/Heat-Sink
HOW LONG WILL AN INDUCTION
LAMP & BALLAST OPERATE?
HighHorse external induction lamps typically have a longer life (80k
Hrs-100k Hrs) than internal induction lamps (60k Hrs-80k Hrs).
External induction lamps manage heat either by convection through
the air or conduction into the fixture. HighHorse internal induction
lamps operate with a higher internal temperature and must cool by
conduction to the base heat sink and by radiation through the glass
walls. With both lamp types a small percentage of mercury ions are
absorbed by the phosphor coating over time; once the mercury ions
inside the envelope are depleted, the lamp emits only a very dim light
and has to be replaced.
HighHorse Electronic Ballasts (generators) are warranted for five years.
(Actual life expectancy can be significantly longer with proper thermal
management.)
5. LOWER WATTAGE - SUPERIOR LIGHTING
BETTER LIGHT
150W 85W
HPS INDUCTION
How is it that an 85w HighHorse Induction system
can replace a 150w HID system and the visual acuity
is improved with the Induction system?
The answer is found in how VISUAL CONCLUSION
the human eye responds Extensive research has been conducted to
to light and how lighting better understand Mesopic vision; more specific
how “Scotopic” vision which stimulates the
sources affect vision. photoreceptors called rods in the human eye to
cause pupil contraction and increased visual
To better understand consider the following scientific terms acuity. It was found that scotopically enhanced
and how they relate to vision: light appeared brighter even when light levels
were reduced; thus the potential to reduce
SCOTOPIC VISION wattage and improve lighting.
The scientific term for human visual perception in low light
(night vision); directed by rod cells in the human eye. The ratio of Scotopic light vs. Photopic light in a
lamp is called the S/P ratio. This ratio determines
PHOTOPIC VISION the apparent visual brightness of a light source.
Induction lighting produces a high S/P ratio and
The scientific term for human color vision under normal this is why the 85w lamp appears as bright or
conditions during the day, directed by cone cells in the brighter to the human eye than a sodium vapor or
human eye. metal halide of twice the wattage. Visual Effective
Lumens (VEL) is a key factor in vision.
MESOPIC VISION
The scientific term for the combination between Photopic
and Scotopic vision taking into account the total sensitivity
of the rod cells in the eye for the blue range, with the color
perception of the cone cells.
6. SCOTOPIC/PHOTOPIC (S/P) RATIO
Sun + Sky (CIE D65 Illuminant) 2.47
Sun (CIE D65 Illuminant) 2.28
6500K Fulham Induction Lamp 2.25
5000K Fulham Induction Lamp 1.96
4100K Fulham Induction Lamp 1.62
Metal Halide (Na/Sc) 1.49
3500K Fulham Induction Lamp 1.46
Incandescent (2850K) 1.41
White High Pressure Sodium (50W) 1.14
Warm White Fluorescent 1.00
High Pressure Sodium (50W) 0.62
High Pressure Sodium (35W) 0.40
Low Pressure Sodium (SOX) .035
0 0.5 1.0 1.5 2.0 2.5
Chart calculations by Berkley Labs - actual selection of induction lamp wattage
and type will vary with installation and user requirement.
HOW TO CALCULATE VISUAL EFFECTIVE LUMENS (VEL)
PARKING GARAGE APPLICATION 27,000 HRS = 3.0 YEARS
Initial S/P Ratio VEL
Type VEL
Lumens (from above) 10,000 hrs 20,000 hrs 27,000 hrs
150w HPS 15,000 0.62 9300 6696 6045 4650
X =
85w Induction 6375 1.96 12,495 11,870 10,745 10,620
LUMEN MAINTENANCE CURVES
100
95
90
% rated lumen output
85
80
INTERNAL INDUCTOR
75 INDUCTION LAMPS
HIGH PRESSURE SODIUM
70
65
60
55
50
10,000 20,000 40,000 60,000 80,000 100,000
HOURS OF OPERATION
7. INDUCTION LIGHTING SYSTEMS
COMPARE THE LIGHT SOURCES
INDUCTION VS LED / METAL HALIDE / HIGH PRESSURE SODIUM
INDUCTION LED MH HPS
SOURCE POINT AREA PROJECTION POINT POINT
LAMP LIFE (Hours) 60k - 100k 30k - 50k 10k - 15k 15k - 24k
LIGHTING EFFICIENCY Lm/Wt 65 - 90 40 - 65 60 - 110 60 - 120
CRI > 80 > 70 > 70 > 20
S/P RATIO 1.46 - 2.25 1.96 1.49 0.62
LUMEN MAINTENANCE Reference Graph Below
COLOR TEMPERATURE Full Range Limited Range Limited Range Limited Range
START INSTANT INSTANT DELAY DELAY
MERCURY <10mg. N/A 10-150mg. 10-50mg.
LUMEN MAINTENANCE CURVES
100
95
Lamp Replacement at 65% / EOL
90
% rated lumen output
85 EXTERNAL INDUCTOR
INDUCTION LAMPS
80 INTERNAL INDUCTOR
HIGH PRESSURE SODIUM
75 INDUCTION LAMPS
70
65
60 METAL HALIDE
55 LED
T8 & T5
50 FLUORESCENT
10,000 20,000 40,000 60,000 80,000 100,000
HOURS OF OPERATION
8. INDUCTION LIGHTING SYSTEMS
COMPARE THE COST
85W GLOBE INDUCTION 85W LED 150W HPS
BURN HOURS / NO. YEARS 43,680 / 5 87,360 / 10* 43,680 / 5 87,360 / 10* 43,680 / 5 87,360 / 10*
SYSTEM OPERATING WATTS 87 89 180
OPERATING COST (ENERGY) $102,600 $246,240 $104,970 $251,928 $212,280 $509,472
RE-LAMPING CYCLE 0 1 1 2 2.2 4.4
RE-LAMPING COST $0 $30,000 $111,000 $266,400 $33,000 $79,200
TOTAL ANNUALIZED COST $20,520 $27,624 $43,194 $51,833 $49,056 $58,867
USING HIGHHORSE INDUCTION SYSTEM: 5 yr 10 yr 5 yr 10 yr
TOTAL SAVINGS $113,370 $242,088 $142,680 $312,432
TOTAL ANNUALIZED SAVINGS $22,674 $24,209 $28,536 $31,243
* ASSUMPTION: 20% ENERGY + MAINTENANCE COST INCREASE
SYSTEM OPERATING WATTS
Induction: Ballast Efficiency 98%
LED: Driver Efficiency 95%
HPS: Ballast Efficiency 80%
OPERATING COST (ENERGY)
How Operating Cost Was Calculated
ANNUAL Kw ANNUAL
SYSTEM ANNUAL BURN TOTAL 5 YEAR
LAMP TYPE Kw HOUR ENERGY
WATTS HOURS FIXTURES ENERGY COST
HOURS RATE COST
X = X = = =
141.52 X 300 $42,456 x
150W HPS 180 8736 ÷ 1000 1,572.48 0.09 $212,280
FIXTURES 5-YEARS
RE-LAMPING CYCLE
Reference Lumen Maintenance Chart for Re-Lamping Cycle (previous page)
RE-LAMPING COST
Induction: $75/Lamp + $25/Labor X 300 Fixtures X 1 Cycle
LED: 50%Fixture Cost + $50 Labor X #Fixtures X # Cycles
HPS: $15/Lamp + $35 Labor X #Fixtures X # Cycles
CALCULATE THE PAYBACK
Example of an HPS System replaced with a HighHorse Induction Retro-fit System
Installed HighHorse Induction # of Total 5-Year Annulized
Payback
Retro-fit Kit System: X fixtures = Installed cost ÷ Savings =
$250.00/per fixture 300 $75,000 $28,536 2.6 Years
Actual cost of installed system may vary.
9. HIGHHORSE INDUCTION LIGHTING SYSTEMS
SYSTEM SPECIFICATIONS
GLOBE SYSTEM BULB SYSTEM
DISC (DS) DISC (DS)
+ OR
+ OR
PROFILE (P) PROFILE (P)
TUBULAR SYSTEM CIRCULAR SYSTEM
DISC (DS)
OR
+
PROFILE (P)
OR
+ PROFILE (P)
OR
DIE CAST (DC)
DIE CAST (DC)
ADVANCED FEATURES COMMON BALLAST
• Ultra-High Life • Full Range Kelvin Color SPECIFICATIONS
• Constant Wattage Output < 3% Variance Input Voltage: 120V-277V
• High Lighting Efficiency
Input Frequency 50/60 Hz
• High Color Rendering Index • Strong Adaptability to Wide
Output Frequency 250K Hz
• Instant Start Range of Applications
THD < 10%
• High Power Factor • Low THD Power Factor > 0.95
• High Frequency Operating • Low EMI Complies with FCC Case Temp. < 65°C
Non-Consumer Units Operating Temp. (0°C to 50°C)
• Low Lamp Lumen Depreciation
Open Fixture
OPTIONS Operating Temp. (-20°C to 50°C)
Closed Fixture
• Full Range Color Temperatures • 0-10v Input Control Systems
• Remote Control Dimming • Motion Sensor Control Systems
• Computer Controlled Dimming Systems • Auto-Transformer (480V)
SYSTEM MODEL NUMBER EXAMPLE
HH ILS GLP35 5K - A 35W HighHorse Induction System with a globe lamp, low profile ballast and 5K color temp
HH ILS G LP 35 5K
HH = HIGHHORSE ILS = INDUCTION G = GLOBE LP = LOW PROFILE WATTS COLOR TEMP.
LIGHTING B = BULB P = PROFILE
SYSTEM T = TUBULAR DS = DISC
C = CIRCULAR DC = DIE CAST
11. HIGHHORSE INDUCTION LIGHTING SYSTEMS
RETRO-FIT SYSTEMS
Fulham provides a complete range of supportive services that may enable the customer to
retro-fit their existing fixtures with HighHorse Induction Lamps & Ballasts. This unique
Fulham retro-fit system not only takes full advantage of Induction technology
but provides a cost-effective solution with minimal investment.
HighHorse Induction Retro-Fit system’s services make it easy to
retro-fit existing fixtures, minimize labor cost of conversion, ensure
reliability and maximize on components expected life.
The Fulham UL certified laboratory in Hawthorne, California is
staffed with highly skilled engineering talent and the most state-
of-the-art testing equipment in the world including lamp spheres for
testing lumen output and efficiency.
ENGINEERING SERVICES
SYSTEM EVALUATION
Fulham determines the best lamp and ballast combination
for the existing fixture; this includes:
• Ballast mounting and thermal management
• Lamp mounting and optical enhancement
• Ease of installation component options
• Retro-fit Component CAD drawings
• Installation instructions
• Evaluation sample
Complete Ballast & Lamp
Mounting Assembly
CERTIFICATION SERVICES
UL CERTIFICATION
Fulham takes the responsibility to ensure that the retro- WARRANTY PROGRAM
fit meets the UL Certification standard and provides the APPLICATION EVALUATION PROCESS
customer with a Multiple Listing for the retro-fit fixture. This Fulham is known for high quality products and superior
ensures the fixtures operate safely and meet UL standards support services; HighHorse Induction Systems are designed
for this type of fixture conversion. for the Lamp and Ballast to operate as a system which
provide long-life and consistent operation.
IES PHOTOMETRIC FILES
INDEPENDENT LAB TESTING Before and during the process of retro-fit evaluation Fulham
During the initial system evaluation Fulham evaluates basic provides a Warranty Evaluation Summary; this identifies all
performance; most often this performance level exceeds the the critical data necessary to determine life-expectancy.
existing levels of illumination. Fulham is contracted with an HighHorse Induction Systems come with a Full Five-Year
Independent Test Lab and can provide a new IES Photometric Warranty; but much longer life is possible with proper
file for application specific purposes. thermal management.
SAMPLE PROGRAM GREEN ENERGY SERVICES
BETA-SITE TESTING REBATE PROGRAMS
Fulham provides flexible sample programs to ensure Many programs have and are being offered for converting
the HighHorse Retro-Fit System meets all the customer conventional lighting systems to Induction Lighting
requirements. technology. Fulham is constantly reviewing these programs
To take full advantage of HighHorse Induction Lighting in and providing our customers with links to these financial
various applications Fulham works with the customer offers.
to maximize the lighting effect and minimize the energy Where rebate programs do not exist we assist by providing
cost; this may require testing the retro-fit fixtures before cost and technical evaluation materials that can assist with
wholesale conversion. implementation of a rebate program.
12. INDUCTION LIGHTING SYSTEMS
SELF-BALLASTED LAMPS
BULB AND CIRCULAR
120V/220V/277V 12W - 40W
ADVANCED FEATURES
• Ultra-High Life • Full Range Kelvin Color
• High Lighting Efficiency • Constant Wattage Output < 3% Variance
• High Color Rendering Index • Strong Adaptability to Wide
• Instant Start Range of Applications
• High Frequency Operating • Low THD
• Low Lamp Lumen Depreciation • Low EMI Complies with FCC Non-Consumer Units
Operating Luminance Color Average
Rated Initial Efficacy
Model No. Watts Frequency Maintenance CRI Temp. Lamp Life
Luminance (LM) (LM/W)
(KHz) (30K Hrs) (Kelvin) (Hours)
HH-ILSB12-120-5K
HH-ILSB12-220-5K 12W 780
HH-ILSB12-277-5K
450 65
HH-ILSB15-120-5K
HH-ILSB15-220-5K 15W 975 70% > 80 5000K 30,000
HH-ILSB15-277-5K
HH-ILSB40-120-5K
HH-ILSB40-220-5K 40W 250 2800 70
HH-ILSB40-277-5K