White Paper on HyLite Induction Lights

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• www.arva.us
White Paper on
HyLite Induction Lights
Lighting that gives you the Clearest Vision with 100,000 hour Rated Performance Life.
Dramatically Reduces Energy and Maintenance Costs
and offers the
Fastest Return on Investment compared to any other Lighting Solution.
Qualified, GMC
High Quality Products
R & D Capability
Social & Environmental
Responsibility
ARVA , Aviaxtm, HyLitetm, HypoSystm and Solarztm are trade mark properties of ARVA, LLC.
tm
© 2013 ARVA, LLC., USA
How Does HyLite Induction Light Work?
A HyLite Induction Light is essentially a fluorescent light without any electrodes or filaments. It creates light by using
electromagnetic induction. Inside the glass tube is an induction coil, inert/argon gas (non-toxic), and a solid piece of mercury
(amalgam*). When coupled with a highly efficient generator (electronic ballast), the induction coil produces a high frequency
magnetic field, and the inert/argon gas becomes excited. This gas creates an invisible UV light, which then turns into visible
light as it passes through the phosphor coating inside the tube. This results in a very high energy conversion efficiency of
between 65 to 85 Lumens per Watt.
*The American Dental Association (ADA) has asserted that dental amalgam is safe since its foundation in 1859.
Magnetic Field
Phosphor Coating
Glass Tube
Magnetic Ring
UV
Light
To
Electronic
Ballast
To
Electronic
Ballast
Induction
Electron
Coil
Inert Gas Fill
Visible Light
Mercury Atom
Almost all conventional light sources currently in use have one thing in common - filaments or electrodes sealed into the
walls of the lamp to bring the electrical current inside the lamp chamber. The main failure mechanisms in these typical lamps
(other than breakage) are:
• Failure of the filaments or electrodes due to depletion of the filament material over time as atoms are stripped off by the
effects of heat and high electrical current. More so, even minor vibrations break the filament or electrodes.
• Failure of the seal integrity of the lamp; typically caused by thermal stresses in the area where the electrodes go through
the glass walls. The failure of the seal can either be sudden and complete, or a “slow leak” over time, allowing the entry of
atmospheric gasses which contaminate the interior.
The ultra-long lifetime of the HyLite Induction Lamp is attributable to two main factors:
• There are no filaments or electrodes as in conventional lamps that are exposed to the effects of heat and high electrical
current, which result in rapid deterioration of performance and ultimately, failure.
• Because the induced magnetic field can easily pass through the glass wall of the HyLite Induction Lamp bulb, throughput
wires are not needed as in conventional lamps, where the glass/metal junction is another vulnerable failure area.
The absence of filaments or electrodes in HyLite Induction Lamps eliminates the common failure point found in most
conventional lamps, thereby providing an extremely long lasting light source. Without an electrode and filament,
HyLite Induction Lamps offer an unprecedented 100,000 hours of lamp life (i.e. 5-7 times the rated life of conventional light
sources). Conventional lighting generally lasts between 15,000 to 25,000 hours. The electrode and filament often break or
eventually burn out, requiring the lamp to be replaced on a regular basis.
Typical Life Expectancy of Various Lamps
Incandescent: 1,000 hrs.
Halogen: 2,000~3,000 hrs.
Metal Halide: 8,000~20,000 hrs. Fluorescent: 12,000~20,000 hrs.
HPS: 12,000~24,000 hrs.
Mercury: 20,000~24,000+ hrs.
LED: 60,000~70,000 hrs.
HyLite Induction Lamps: 100,000 hrs.
Typically, you would replace 6 pcs. of HPS or 8 pcs. of Metal Halide Lamps before you need to replace one unit of the HyLite
Induction Lamp.
Practical implications of 100,000 hours of Hylite Induction Lamp Life. On-time of Lighting for:
Over 11 years Over 15 years Over 22 years Over 34 years Over 45 years @24 hours a day
@18 hours a day
@12 hours a day
@ 8 hours a day
@ 6 hours a day
Ultra-Efficient Electronic Ballast: The key to efficiency for HyLite Induction Systems is our proprietary electronic ballast.
Magnetic Induction Lamps require an appropriately matched electronic ballast (sometimes referred to as a “generator”,
since it generates the power for the high frequency magnetic field) for proper and efficient operation. The electronic ballast
takes the incoming main’s AC voltage [or DC voltage in the case of 12V and 24V electronic ballasts] and rectifies it to DC.
Solid state circuitry then converts this DC current into a very high frequency, which is between 2.65 and 13.6 MHz (depending
on the lamp). The high frequency produced by the electronic ballast is fed to the coil wrapped around the ferrite core of the
external or internal inductor, to produce the magnetic field.
HyLite electronic ballasts contain control circuitry, which regulates the frequency and current to the induction coil to insure
high efficiency, improved performance, and stable operation of the lamp. In addition, our electronic ballasts have a circuit
that produces a large “start pulse” at power-up to initially ionize the mercury atoms, therefore starting the lamp. Close regulation
of the lamp by the electronic ballast, and the use of our proprietary microprocessor controlled circuits allow HyLite Induction
Lamps to operate at a very high efficiency of 96%-99%. Only 1%~4% of electrical power is lost, compared to 16%~25%
of energy wasted in traditional magnetic ballasts (“core and coil” design).
How is the Visual Acuity improved with the HyLite Induction system?
The answer is in how the human eye responds to light and how lighting sources affect vision. The human eye has two types
of photoreceptors: cones and rods. The retina contains approximately 125 million rod cells and approximately 6 million cone
cells. These respond to different frequencies (colors/ wavelengths) of light in different ways. Cone cells are adapted to detect
colors and function well in bright light, while rod cells are more sensitive, but do not detect color well as they are adapted to
low light. To better understand, consider the following scientific terms and how they relate to vision:
Scotopic Vision: Scientific term for human visual perception in low light (night vision); directed by rod cells in the human eye.
Photopic Vision: Scientific term for human color vision under normal conditions during the day (i.e. human perception of
red, green and blue that the brain integrates to form full color images of the world around us), directed by cone cells in the
human eye.
Mesopic Vision: 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.
Specifically, rods are widely thought to only be important for night vision, when in actuality they contribute largely to vision
behavior at various light levels. There are a range of light levels called the mesopic region, where both rods and cones
affect the human visual system. Most outdoor lighting falls within the mesopic region.
Visually Effective Lumens (VEL) or Pupil Lumens (PL) is a key factor in vision: Spectral distribution produced by a lamp
affects human vision. Lamps with a higher blue output (High Scotopic Output) appear brighter to the human eye than the
same wattage of lamp with minimal or no blue output. As such, the spectral output of light from a lamp that is useful to the
human eye is also a factor in perceived light quality and brightness of lighting.
Surprisingly, consumers only rely on photopic lumen measurements to describe a lamp’s brightness. Photopic lumens are
the only units measured in LM79 tests and other current light simulation tests, in which lamps are put through in order
to determine their brightness (luminous flux), light distribution angles, and efficacy. Photopic lumens are usually the only
lumens that are mentioned in marketing materials, and therefore the only lumens considered when purchasing a bulb.
Light is measured in Lumens (Lux or Foot Candles). When measuring the HyLite Induction Lamps with a light meter, they
show a lower output on the meter than conventional lamps, even though they appear brighter to the human eye. This is
because the light meters calibrated to CIE* luminosity curve ignore the additional blue components in the lamp output, which
stimulate the rod cells (Scotopic Vision) and are seen by Scotopic vision of the human eye. Scientific research has shown
that blue light plays an important role in human vision. In natural daylight conditions, there is a large blue component from
the diffuse scattering (Rayleigh scattering) of blue light in atmosphere, which is why the sky appears blue.
The ratio of Scotopic light vs. Photopic light in a lamp is called the S/P ratio. This ratio determines the apparent visual
brightness of a light source. The VEL of a lamp can be determined by multiplying the output in lumens by a conversion
factor. The conversion factors are derived from the Scotopic/Photopic Ratio (S/P Ratio) of a lamp (See Chart). The S/P ratio
measures the amount of light being output in Photopic and Scotopic sensitivity regions of the human eye, and then derives
the ratio of both.
The S/P ratio of a lamp is important as it provides a number that can be used to multiply the output reading of a lamp using a
standard conventional meter. This in turn determines the amount of useful light (useful to the human eye) a lamp produces.
When the ratio is used as a multiplier of the actual light output in measured lumens (or Lux), the amount of light useful to
human eye (VEL) can be determined. This correction factor dramatically changes the conversion efficiency of the lamps.
This is why the HyLite Induction lamp will appear brighter to the human eye than typical High Pressure Sodium or Metal
Halide lamps of twice the wattage due to their high S/P Ratio.
*
CIE Standard Luminosity Function (widely known as photopic curve) is a branch of color science concerned with numerically specifying the color of
physically defined stimuli such that two stimuli that look the same (under certain criteria) have identical specifications. The Commission Internationale de
l’Eclairage (CIE) developed a system for this specification.
Scotopic/Photopic (S/P) Ratio
Sun + Sky (CIE D65 Illuminant)
2.47
Sun (CIE D65 Illuminant)
2.28
5000K HyLite Induction Lamp
1.96
Metal Halide (Na/Sc)
1.49
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.
Courtesy: Dr. Sam Berman, Lawrence Berkley National Laboratory
Many people who see induction lights comment on how bright they appear and what they feel is a higher quality of light
being emitted from the fixtures. However, when individuals compare a HyLite Induction Lamp to a conventional lamp with
a light meter, the HyLite Induction Lamp is generally measured as producing less light than the conventional lamp. This
has led some people to question the installation of the fixtures, even though they use 60%~75% less energy – see different
results that the areas lit by the HyLite Induction Lamps will not be as bright as conventional lighting, even though their eyes
see different results.
Scotopic Measurements: What the Light Meter Does not Catch: The issue is not with the induction lights and
their ability to produce acceptable light. Today’s standards for light meters are calibrated using the 1951 CIE Color Space
Standards. They have not evolved with advancing technology in the lighting arena. This standard, used to set the sensitivity
curve for light meters, does not take into account the contribution of Scotopic Vision (night vision) to the sensitivity of the eye.
Scientific studies have shown that the human eye is more sensitive to blue wavelengths than the measurement curve of the
light meter. Blue light, acting on human night vision (Scotopic Vision) is largely responsible for “visual acuity” or sharpness of
vision. Simply put, light meters and the 1951 standards by which they measure light are outdated. Consumers are therefore
paying for products with yesterday’s lighting quality while not taking advantage of today’s products, such as HyLite Induction
lights which offers reduced costs and a better quality of light.
HyLite Evaluates both Photopic and Scotopic Responses for Lighting Energy Efficiency: Current
lighting system installations attempt to reduce pupil size and improve vision by raising light levels. This approach does
not utilize the response of the rod cells to blue light, which has been scientifically proven to control pupil size. Increasing light
levels to improve vision simply adds glare and wastes energy. HyLite Induction Lamps produce more light that is useful to
human eye, especially when compared to conventional monochromatic (Orange/Yellowish) light.
When making HyLite Induction Lighting Systems, our goal is not simply to put out the highest luminosity, but to make objects
in the surroundings more visible, down to the very detail. Clear vision does not necessitate very high levels of luminance.
Although pupil lumens are not to be underestimated, all factors are equally important including ambiance, hours of runtime,
the purpose of the lighting, and the type of fixture for which the lamp is intended. HyLite Induction Lighting Systems take all
of these factors into consideration.
All aspects of lighting should be understood in order to decrease our global electricity demand by 20%. This includes
Photopic Lumens, Pupil Lumens, Lumen Maintenance, and Energy Consumption of different bulbs. With this approach,
there is a substantial opportunity to achieve cost-effective, high quality lighting.
HyLite Induction Lighting Systems: The Highest Energy Conversion Efficiency:
Conventional Lighting Conversion Efficiency by Lamp Type
(1951 CIE Standards)
HyLite Induction Lamp
65~85
Low Pressure Sodium
100~180
High Pressure Sodium
50~140
Metal Halide
50~110
T8 and T5 Fluorescent
40~85
Mercury Vapor
10~65
Incandescent
10~35
Lumens per Watt (L/W) 10
30
20
40
50
60
70
80
90
100
110
120
130 140 150
160 170
180
Source: NRC Lighting Reference Guide, Lawrence Berkley National Laboratory and Manufacturer’s Data Sheets
Lighting Conversion Efficiency by Lamp Type
(Corrected for S/P Ratio)
HyLite Induction Lamp
127~167
Low Pressure Sodium
35~63
High Pressure Sodium
31~87
Metal Halide
74~164
T8 and T5 Fluorescent
40~85
Mercury Vapor
18~51
Incandescent
Lumens per Watt (L/W) 10
14~49
20
30
40
50
60
70
80
90
100
110
120
130 140 150
160 170
Source: NRC Lighting Reference Guide, Lawrence Berkley National Laboratory and Manufacturer’s Data Sheets
Note: The Low Pressure Sodium lamp which had the highest conversion efficiency in the previous chart, is now the least
efficient light source, when corrected for its S/P Ratio. While Low Pressure Sodium lamp scores high on the Photopic Curve,
it scores very low when corrected for VEL due to the lack of blue light. Low Pressure Sodium lamps are monochromatic and
do not efficiently produce light that is useful for human vision.
Excellent Lumen Maintenance: Induction Rated Lumen Maintenance is largely determined by the operating
temperature of the lamp and quality of lamp design. Full Spectrum, High Kelvin, HyLite Induction Lamps are designed and
manufactured with high quality phosphors and a solid amalgam to increase color rendering and optimize the performance
and rated life of the lamp. Compared to traditional HID (High Intensity Discharge lamps, such as Metal Halide, Mercury
Vapor, HPS, Halogen, etc.) light sources, HyLite Induction Lamps offer higher quality, highly visible white light for superior
illumination with reduced wattage input.
The chart below is intended to represent an average rated lumen output stated as a percentage of the initial lumen output
over the rated life of the lamp. Operating the HyLite Induction lamp within the temperature specifications will typically result
in an average estimated 70% lumen output at 70,000 hours.
Estimated Lumen Maintenance
100
Lamp Replacement at 70% / EOL
% Rated Lumen Output
95
90
85
80
75
High Pressure Sodium
70
LED
65
HyLite Induction
60
55
50
Metal Halide
10,000
20,000
40,000
60,000
80,000
100,000
Hours of Operation
The Lumen Maintenance curve depicts the actual lifetime of the Visually Effective Lumens (light) as compared to other
lighting scenarios. The induction lamp outlasts the competition, whether it is MH or HPS, or the newer T5 & T8s. It lasts
anywhere from 3-5 times longer, while maintaining an industry leading lumen output.
Energy Conversion Efficiency: Once the S/P correction factor is applied, HyLite Induction Lamps have the highest
energy conversion efficiency over other types. This is why the HyLite Induction Lamp brighter to the human eye than a
Sodium, Mercury Vapor or Metal Halide lamp with twice the wattage. HyLite Induction Lamps are a far superior choice as
they produce more light useful to human eye while using less energy. Using S/P Ratio, we can compare light sources based
on the actual amount of the light produced by various lamp types, using an example of a 200W HyLite Induction Lamp and
applying the VEL correction factors.
Output of Typical 200W Light by Lamp Type
(S/P Correction Factor Applied)
Mercury Vapor
5,840 VEL
Incandescent
6,340 VEL
Low Pressure Sodium
9,800 VEL
T8 and T5 Fluorescent
12,500 VEL
High Pressure Sodium
21,660 VEL
23,840 VEL
Metal Halide
HyLite Induction Lamp
35,320 VEL
1
3
2
4
5
6
7
8
9
10
15
20
25
30
35
40
Lamp Lumen Output Corrected for VEL/PL (in Thousands of Lumens)
Refer to attached, Actual Case Study: Induction Lighting Study for a Car Dealership
Lower Lighting Energy Consumption: Another way to measure the efficiency of HyLite Induction Lamps is to determine
how much electrical energy it takes to create a certain level of light, utilizing a particular type of Lighting Technology. By
using the average lumens per watt figures (corrected for VEL), we can approximate how much electrical power it takes to
produce the desired level of 10,000 Lumens (Ballast Factor, which can amount to 20-30% of energy wasted is not included).
Lighting Energy Consumption by Lamp Type - to produce 10,000 Lumens
S/P Ratio Correction Factor Applied (Ballast Factor not included)
HyLite Induction Lamp
57W
Metal Halide
84W
High Pressure Sodium
92W
T8 and T5 Fluorescent
160W
Low Pressure Sodium
204W
Incandescent
316W
Mercury Vapor
343W
10
20
30
40
50
60
70
80
90
100
150 200 250 300 350
Electrical Power Consumption (in Watts)
The HyLite Difference
Ultra-efficient, Maintenance-free and Superior Quality of Light
versus Conventional Light Sources
Features
HyLite
Induction
Metal
Halide
High Pressure
Sodium
Mercury
Vapor
Rated Lamp Life
100,000
8,000~20,000
12,000~24,000
20,000~24,000
Lamp Maintenance
Interval@12 hours/day 22 Years
2 to 4.5 years 3 to 5.5 years 3 to 4.5 Years
Warranty
10 Years
None
1~2 Years
None
On-time
Instant
5~10 minutes
3~4 minutes
5~7 minutes
Re-strike
Instant
5~20 minutes
3~5 minutes
10~12 minutes
Flicker
None
Significant
Significant
Significant
Glare
None
Significant
Significant
Significant
Noiseless Operation
Yes
No
No
No
Heat Generation
Low
High
High
High
System Efficiency
Excellent
Poor
Poor
Poor
Maintenance Cost
Minimal
High
High
High
S/P Ratio
1.96
1.49
0.62
0.8
Initial VEL Efficacy
(Pupil Lumen)
127~167 Plm/W
74~164 Plm/W
31~87 Plm/W
18~51 Plm/W
Initial Efficacy
65~85 Lm/W
57~110 Lm/W
64~135 Lm/W
22~64 Lm/W
Lumen Depreciation
Rate (@2,000 Hours)
<0.75% 6%
5%
4%
Lumen Maintenance
70%@70,000 hrs.
40%@20,000 hrs.
50%@20,000 hrs.
50%@24,000 hrs.
Lamp Operating
Low, <80°F
High, >300°F
High, >350°F
High, >350°F
Temperature
Reduced AC Costs
Increased AC Costs
Increased AC Costs
Increased AC Costs
CRI
>80
65
22
40
Operational Temperature
-13°~104°F (-25~40°C)0°~100°F (-18~38°C)-7°~100°F (-22~38°C)0°~100°F (-18~38°C)
Ambient Temperature
Low, <176°F (80°C)
High, >575°F (300°C)
High, > 662°F (350°C)
High, >575°F (300°C)
Power Factor
>0.96
0.87
0.44
0.87
Power Consumption Very Low High High High
Maintenance Cost
Very Low
High
High
High
Electromagnetic
Interference (EMC)
Low
High
High
High
Total Harmonic Distortion
(THD)
Low, <10%
High, 22~37%
High, 22~37%
High, 22~37%
Compatibility with Motion
Control
Yes
No
No
No
Type of Mercury
Amalgam Mercury
Vaporized Mercury
Vaporized Mercury
Vaporized Mercury
Average Mercury Content
2~5mg
>10~1000mg
>10~50mg
>10~1000mg
Recyclability
98%
Limited
Limited
Limited
Environmental Safety Recyclable
Hazardous
Hazardous
Hazardous
LEED Compliant
Yes
No
No
No
Lighting Quality: One of the most significant advantages of HyLite Induction Lighting is that it offers an even light
distribution, unlike a conventional lighting system where the light distribution is intense in some areas and lacking in others.
This results in a great amount of light wastage and pollution, which the consumer needlessly ends up paying for. HyLite
Induction Lighting utilizes energy efficiently with more effective illumination that eliminates light pollution and waste. Also,
because HyLite Induction Lighting provides Cool, White Light with an elevated CRI, visibility is typically equal to or higher
than to a HPS/MH light that has less foot candles or measurable lumens. Studies provide a ratio multiplier showing the visual
affects of white verses yellow light.
Ultra-Efficient Performance: Coupled with its 96%~99% efficient generator, the innovative design of a 150W HyLite
Induction Lamp creates enough lumens to replace a 400W HPS or MH lamp. The 150W HyLite Induction Lamp requires
requires approximately 60% of the energy to operate and produces more visual lumens. With almost no maintenance
required, HyLite Induction Lamps offer an incredible 60%~75% in energy savings over HPS and HID Lamps. With an
unprecedented 100,000 hours of rated lamp life, they work flawlessly and maintenance-free - up to 22 years at “on time” of
12 hours a day.
Technical Comparison
HyLite
Metal
High Pressure
Mercury
Features
Induction Halide Sodium Vapor
Rated Wattage
150W
400W 400W 400W
Actual Wattage
160W
470W
475W
480W
Mean Lumens
11,625
20,400
42,750
18,700
Mean Lumens per Watt
82.5 Lm/W
51 Lm/W
107 Lm/W
47 Lm/W
S/P Ratio* 1.96
1.49
0.62
0.80
Pupil Lumens
22,785
30,396
26,505
14,960
VEL Efficacy
162 Plm/W
112 Plm/W
43 Plm/W
40 Plm/W
Rated Lamp Life
100,000 hrs.
8~20,000 hrs.
12~24,000 hrs. 20~24,000 hrs.
Lumen Depreciation
Rate (@2,000 Hours)
<0.75% 6%
5%
4%
HyLite Induction Lighting Conversion Chart
HyLite Induction
Light
Equivalent to / Energy Savings (%)*
Incandescent
Mercury
HPS &
Bulb
Vapor
Metal Halide
40W
200W (80%)
125W (68%)
100W (60%)
60W
300W (80%)
160W (63%)
150W (60%)
80W
450W (82%)
250W (68%)
200W (60%)
100W
500W (80%)
300W (67%)
250W (60%)
120W
750W (84%)
400W (70%)
300W (60%)
150W
900W (83%)
500W (70%)
400W (63%)
200W
1200W (83%)
650W (70%)
500W (60%)
250W
1500W (83%)
800W (70%)
600W (62%)
300W
1800W (83%)
1000W (70%)
700W (60%)
400W
2500W (87%)
1300W (75%)
1000W (60%)
500W
3000W (83%)
1600W (70%)
1200W (60%)
* Does not include Ballast Loss, Maintenance & Replacement Lamp Savings which can amount to additional Savings of up to 30~50%
Lowest Total Cost of Ownership: HyLite Induction Lighting Systems save up to 60%~75% in energy costs and up to
80% in maintenance costs as compared to current installed technologies. This combination offers a far superior ROI than
other lighting technologies.
Energy Savings: HyLite Induction Lighting products save energy through two mechanisms. Our ballasts provide almost
three times the energy efficiency of magnetic ballasts. Secondly, because of superior lumen output and greater lumen
maintenance over time, HyLite products can replace much higher wattage systems with up to 50%~70% lower wattage
products. Simply put, HyLite Induction Lighting products utilize each watt more efficiently, thereby resulting in lower power
consumption with a savings of 60%~75% over conventional lighting systems.
Maintenance Cost Savings: With a rated life of 100,000 hours and far slower lumen depreciation, HyLite Induction
Lighting products can reduce the number of costly replacements by up to 80%. This not only reduces costs, but also
significantly reduces the downtime or the opportunity cost that often corresponds with any lighting change out work.
These benefits translate into significant customer cost savings that will often pay for the cost of the upgrade to improved
quality lighting, when compared to the other types of commercial and industrial lamps they replace.
Below is an example of a Cost Comparison between HyLite Induction Lighting and Conventional Light Sources, taking
comparable “visual acuity”, as well as energy consumed and maintenance costs into account.
10 Year Cost Comparison
(150W HyLite Induction vs 400W Conventional Lighting)
HyLite
Metal
High Pressure
Mercury
InductionHalideSodium Vapor
Rated Lamp Wattage:150W400W400W400W
Actual Lamp Wattage:
160W470W475W480W
Lamp Life Used:
100,000
Luminaire Cost
$296.23$268.00$201.88$115.00
Annual Energy Usage
kWh@12 hrs./day
701 2,0592,0812,102
Annual Energy Costs
@0.12c/kWh
$84.12 $247.08$249.72$252.24
10 Year Energy Costs
$841.20
$2,470.80
$2,497.20
$2,522.40
10 Year Maintenance Costs
$0.00
$737.50
$512.50
$512.50
10 Year Total Cost (Each)
$1,137.43
$3,476.30
$3,211.58
$3,149.90
$23,388.70
$20,741.50
$20,124.70
Annual Savings with HyLite
Induction (100 Luminaires)
10 Year Total Costs
(100 Luminaires)
8,000
12,000
12,000
$113,743.00$347,630.00$321,158.00$314,990.00
10 Year Savings with HyLite
Induction (100 Luminaires)
$233,887.00
$207,415.00
$201,247.00
The HyLite Difference - Lowest Total Cost of Ownership
compared to Current Installed Technologies
Below is an example of 10 and 20 Year Total Cost of Ownership comparison of various lamp wattages between HyLite
Induction Lighting and Conventional Light Sources, taking comparable “visual acuity”, as well as energy consumed and
maintenance costs into account.
10 Year Total Cost of Ownership
Light
Source W
20 Year Total Cost of Ownership
Mean Pupil
Annual Lamp Material Labor 10 Year (%) >
Lamp Material Labor 20 Year (%) >
Lumens CRI Energy Changes Cost
Cost
Cost HyLite Changes
Cost Cost
Cost HyLite
HyLite
HPS MH
MV
40
100
100
125
5,292
4,960
5,960
3,700
85
22
65
40
$23
$72
$72
$90
0
3
4
3
$0
$148
$175
$133
$0
$231
$300 $1,168 405%
$375 $1,270 449%
$300 $1,333 476%
0
4
5
4
$0
$110
$138
$90
$0
$463
$300 $2,298 397%
$375 $2,503 441%
$300 $2,623 467%
HyLite
HPS MH
MV
60
150
150
160
8,526
8,370
10,728
5,504
85
22
65
40
$35
$97
$97
$103
0
3
4
3
$0
$163
$195
$133
$0
$347
$300 $1,432 313%
$375 $1,540 344%
$300 $1,467 323%
0
4
5
4
$0
$130
$163
$90
$0
$694
$300 $2,832 308%
$375 $3,047 339%
$300 $2,891 317%
HyLite
HPS MH
MV
80
200
200
250
11,368
12,276
12,814
9,000
85
22
65
43
$46
$128
$128
$164
0
3
4
3
$0
$178
$210
$163
$0
$463
$300 $1,760 281%
$375 $1,868 304%
$300 $2,105 355%
0
4
5
4
$0
$130
$163
$110
$0
$925
$300 $3,473 275%
$375 $3,688 299%
$300 $4,158 349%
HyLite
HPS MH
MV
100
250
250
300
14,210
13,950
14,155
11,760
85
22
62
43
$58
$164
$164
$197
0
3
4
3
$0
$178
$210
$178
$0
$578
$300 $2,120 267%
$375 $2,228 285%
$300 $2,449 323%
0
4
5
4
$0
$130
$163
$130
$0 $1,156
$300
$4,193 263%
$375 $4,408 281%
$300 $4,850 319%
HyLite
HPS MH
MV
120
300
300
400
18,228
16,740
19,221
16,640
85
22
60
43
$69
$197
$197
$254
0
3
4
3
$0
$193
$225
$213
$0
$694
$300 $2,464 255%
$375 $2,571 271%
$300 $3,056 341%
0
4
5
4
$0
$130
$163
$130
$0 $1,388
$300 $4,865 251%
$375 $5,080 266%
$300 $6,030 335%
HyLite
HPS MH
MV
150
400
400
500
22,785
23,560
26,224
20,800
85
22
60
43
$87
$254
$254
$315
0
3
4
3
$0
$213
$250
$228
$0
$867
$300 $3,056 252%
$375 $3,169 265%
$300 $3,681 324%
0
4
5
4
$0
$150
$188
$170
$0 $1,734
$300 $6,050 249%
$375 $6,275 262%
$300 $7,305 321%
HyLite
HPS MH
MV
200
500
500
650
32,340
29,450
32,780
27,040
85
22
60
43
$116
$315
$315
$393
0
3
4
3
$0
$258
$310
$228
$0 $1,156
$300
$3,711 221%
$375 $3,839 232%
$300 $4,456 285%
0
4
5
4
$0
$210
$263
$170
$0 $2,313
$300 $7,375 219%
$375 $7,630 230%
$300 $8,855 283%
HyLite
HPS MH
MV
250
650
650
800
40,425
38,285
42,614
33,260
85
22
65
40
$145
$393
$393
$471
0
3
4
3
$0
$288
$370
$288
$0
$300
$375
$300
$1,445
$4,516 212%
$4,674 223%
$5,297 266%
0
4
5
4
$0
$250
$338
$250
$0 $2,891
$300 $8,995 211%
$375 $9,315 222%
$300 $10,556 265%
HyLite
HPS MH
MV
300
750
750
1000
48,510
44,175
49,170
41,600
85
22
65
40
$173
$442
$442
$578
0
3
4
3
$0
$318
$390
$288
$0
$300
$375
$300
$1,735
$5,033 190%
$5,180 199%
$6,369 267%
0
4
5
4
$0
$270
$363
$250
$0
$300
$375
$300
$3,469
$10,018 189%
$10,333 198%
$12,701 266%
HyLite
HPS MH
MV
400
1000
1000
1600
64,680
63,240
65,560
66,560
85
22
65
40
$231
$578
$578
$925
0
3
4
3
$0
$318
$390
$318
$0
$300
$375
$300
$2,313
$6,399 177%
$6,547 183%
$9,868 327%
0
4
5
4
$0
$270
$363
$270
$0
$300
$375
$300
$4,625
$12,751 176%
$13,066 182%
$19,689 326%
* Financial Comparison based on 12 hours a day and $0.12c/kwh.
HyLite Induction Lighting Systems: A Green Alternative
Energy efficient lighting is one of the fastest and most cost effective ways to reduce greenhouse gases and develop
an eco-friendly energy system while improving energy security. The technological advancements in the energy efficient
lighting industry are making them more desirable and suitable for energy savings and emission reductions.
Reducing our environmental impact and carbon footprint are worthy goals that can make a difference in limiting global
warming and climate change. Lighting consumes a significant fraction of energy production with its CO2 emissions.
By installing energy efficient lighting systems, consumers can not only reduce energy costs and expenditures, but also
lessen their environmental impact through reduced CO2 emissions from electricity generation, reduced waste, and improved
recycling.
On a grand scale, the use of HyLite Induction Lighting has been equated to planting acres of trees, removing thousands
of cars from the road, and reducing oil and coal demand. Although the immediate impact of Energy Savings is clear to
everyone from a financial and environmental perspective, there are many “downstream” impacts of having a light source that
lasts over 100,000 hours (5 to 7 times longer than traditional sources).
When comparing various lighting technologies used in commercial applications, it becomes clear that induction lamp based
lighting fixtures offer the best environmental characteristics when compared to the most commonly used lighting
technologies (Metal Halide and High Pressure Sodium lamps). HyLite Induction Lighting offer the following benefits over
these lighting technologies:
• Significant reduction of electrical energy consumption
• More light output with reduced wattage when corrected for Visually Effective Lumens/Pupil Lumens
• Significant reduction in CO2 emissions (by as much as 70%) from electrical power generation due to reduced
energy consumption
• Secondary energy consumption reduction through reduced thermal loads, saving HVAC costs and energy. HyLite
Induction Lighting systems operate at much lower temperatures. The ability to use on-demand technologies such as
occupancy sensors are realized due to the “instant on” feature of our system.
• Extended lifespan, which reduces the materials needed for replacement lamps compared to MH and HPS lighting technology
• Ultra-Long Lamp Life = Reduced Relamping and Resource Consumption = Smaller Carbon Footprint
• No Replacement Parts required
• Zero Maintenance: For up to 22 years
• Fewer materials to be recycled for replacement lamps/ballasts
• Fewer trucks on the road to service fixtures for replacement/troubleshooting
• Fewer freight (trucks/ships) to deliver products to warehouses
• Green Technology - Significantly less Mercury used (2~5mg) and Low Mercury consumption over the induction lamp
lifespan compared to competing lighting technologies;
• Less waste generated than conventional lighting
• End of life de-construction for recycling and materials recovery requires less energy.
• Simplified Recycling: HyLite Induction Lamps use a Solid Mercury Amalgam, which is easy to recover and recycle at end
of lamp life
HyLite Induction Systems represent not only a breakthrough in energy efficient lighting, but are also a sound environmental
choice, when all aspects of the lamp technology are considered.
Environmental Impact: Almost all light sources depend upon using mercury inside the lamps for operation.
When considering the environmental impact of Mercury in lighting, three factors must be taken into consideration:
a. The type of Mercury present in the lamps (Solid, Liquid or Vaporized)
b. The amount of Mercury present in a particular type of lamp
c. The lifespan of the lamp, which will determine the amount of Mercury used per hour of operation.
Liquid and Vaporized Mercury, which are the most common forms of Mercury used in lighting, represent the greatest hazard.
If a lamp is broken, Vaporized Mercury poses the greatest health danger. It can damage the central nervous system, kidneys,
liver, and brain.
Liquid Mercury can finds its way into cracks of flooring or into other spaces. It also contaminates water tables. If the total
amount of Mercury contained in a typical fluorescent tube (appx. 20 mg) were to mix completely in a body of water, it would
be enough to contaminate 6,000 gallons of water - far beyond the limits of safe drinking water. Just 3 grams of mercury can
contaminate a 60 acre lake and affect fish and wildlife.
Mercury compounded with other metals into solid form (Amalgam) is used in HyLite Induction Lighting. It is similar to the
once widely used dental Amalgam in fillings*. The solid form of Mercury poses significantly less of an environmental problem
than Vaporized or Liquid mercury. The small pellet of Amalgam can easily be recovered in case of lamp breakage. It is also
easier to recover for recycling at the end of the lamp life.
HyLite Induction Lighting Magnetic Induction lights impact mercury reduction with 3 different product features:
1. Less Mercury content per lamp than most commercial lamps (HyLite Induction: 2~5mg, Metal Halide: >10~1000mg,
HPS: >10~50mg, Mercury Vapor: >10~1000mg)
2. Solid Amalgam Mercury (easily recyclable) compared to the more volatile Liquid and/or Vaporized Mercury in most lamps
3. Ultra-long 100,000 hours lamp life compared with all other commercial lamps
*The American Dental Association (ADA) has asserted that dental amalgam is safe since its foundation in 1859.
Mercury Consumption by Lamp Type
(per 20,000 Hours of Operation)
1.4 mg
HyLite Induction Lamp
11.7 mg
Low Pressure Sodium
18 mg
High Pressure Sodium
30.9 mg
T8 and T5 Fluorescent
33.4 mg
Mercury Vapor
34.6 mg
Metal Halide
0
3
6
9
12
15
18
21
mg of Mercury Used
24
27
30
33
36
The HyLite Induction Lighting Difference!!
To appreciate the advantages of using HyLite Induction Lighting Systems, it is helpful to understand their unique features:
• Extremely Long Life - 100,000 Hours, up to 5 times the rated life of conventional lamps.
• Maintenance-free - Up to 22 years of maintenance-free operation at “on time” of 12 hours a day.
• Instant On and Instant Re-Strike - No warm up period. Unlike most conventional lamps used in commercial/industrial
lighting which need 5-20 minutes to ‘warm up’ before reaching full output, and usually need to cool before they can be
re-lit. Compatible with a Photocell, Motion Sensor and Dimmers
• Crisp White Light - Soft Light, No Glare, No Flickering or Stroboscopic Effect
• High Luminous Efficacy: A higher level of light output per watt emitting from the lamp - up to 85+ Lumens per Watt.
• Superior Power Factor: >0.96.Proprietary HF Electronic driver allows for maximum energy efficiency (95% to 99%
efficient = less wasted energy). Less than 5% of energy consumed is lost to heat, thus a greater amount of energy gets
converted into visible light.
• Excellent Lighting Quality - CRI>80. Unlike other lighting systems, HyLite Induction Lights allow colors to appear as they
are meant to be seen. No Color Temperature Shifts over Lamp Life
• Minimal Lumen Depreciation (declining light output with age) compared to other lamp types. HyLite Induction Lights
maintain 70% of their light output at 90,000 hours. While metal halides can lose as much as 50% of their light output in the
first six months, HyLite Induction Lights maintain 70% of their light output nearly their entire lifetime.
• High Frequency Operation - No Hum, No Noise. Eliminates the annoying characteristics found in magnetic ballasts
of HID systems.
• No Electrodes or Filaments to Burn Out
• Excellent Vibration & Shock Resistant • High Efficiency Lamp and Ballast - Up to 70% Greater than the Magnetic Ballasts
• Cool Operation - Does not add to Heat Load
• High Luminous Maintenance Rate - No Color Shift or Extreme Degradation
• Stable Light Output - No Variation over a Wide Range of Temperatures and Voltage Fluctuations
• Reliable Ignition under Wide Temperatures: -13°F~104°F (-25°C~40°C)
• Low Electromagnetic Compatibility (EMC) interference frequency: 250KHz
• Low Total Harmonic Distortion: (THD) <8%
• Wide Voltage Range
• Full Spectrum Light available in several Color Intensities (2700K-6500K) for different applications
• Works seamlessly with Energy Control Management Systems
• Lamps and Ballasts are Listed and Certified by US and International Agencies
• Exceptional 10 Year Limited Warranty
Benefits:
• Incredible Energy Savings: Reduces Electricity Costs by up to 90% as compared to Incandescent, 65%~75% compared
to HPS and HID Lights and 50% compared to Compact Fluorescent
• Wide Range of Models for New and Retrofit Applications
• High Reliability
• Electrodeless design allows for use in High-Vibration applications
• Increases Safety and Productivity
• Cold Temperature Performance - Systems operate down to -40°F.
• Zero Maintenance Cost
• Reduces Relamping Cost
• Reduces Cooling Costs in Climate Controlled Areas
• Reduces Inventory Costs
• Low Total Cost of Ownership - Reduced Energy, Maintenance and Replacement Costs
• Qualifies for several Rebate and Tax Incentive Programs
• Highly Sustainable: Dramatic reductions in re-lamp cycles and scheduled maintenance and Resource Consumption
• Environmentally friendly as the mercury is in a solid form and can be easily recovered if the lamp is broken, or for recycling
at end-of-life
• Qualify for LEED points and Carbon Credits
Advantages of HyLite Induction Lighting: The advantages of HyLite Induction Lighting over other forms of outdated
lighting technology are innumerable. Key benefits include:
A 100,000 Hour Rated Life: The most significant advantage is its incredibly long rated life. The electrodes in a conventional
lamp typically fail after 15,000 to 20,000 hours. HyLite Induction lamps do not utilize electrodes, and therefore have an
incredible long life. This helps in reducing the need for lamp replacements and maintenance. For this reason, HyLite Induction
Lighting Systems are the preferred choice for industrial operating environments where frequent lamp change-outs present
serious logistical and safety challenges.
Better Lumen Output: HyLite Induction Lighting Systems deliver higher quality light output (with >80 CRI). They provide
a white, full spectrum light that is more usable to the human eye. HyLite Induction technology ensures better lumen
maintenance throughout its useful life when compared with other conventional lamp technologies. This means that our
installations deliver a cool, non-glaring white light that is more desirable for safety and security purposes.
Greater Durability: HyLite Induction Lighting Systems only use the highest quality components for reliability and ultra longlife. State-of-the-art Lamps, Proprietary, Ultra-Efficient Standard and Dimmable Electronic Ballasts, and scientificallydesigned Luminaires....each individual component is carefully taken into consideration in the overall design.
Installation Versatility: HyLite Induction Lighting Systems are easily adaptable into current environments by taking
advantage of existing mounting points, wiring and infrastructure. Fixtures and Retrofit Kits are offered in a wide range of
models and are adaptable to provide installation versatility.
• Can easily be installed on existing Mounting - Surface, Pole, Hook, etc.
• All Outdoor Fixtures are Water and Weather tight.
• Photocatalyst coating on lamp/lens keeps the fixtures and lamps free of dirt and dust, allowing fixtures to continue to
produce high light levels and reducing the need for cleaning.
• Low Maintenance, NO Bulb changing - designed to last 100,000 hours.
• NO degradation of lighting system due to constant on/off operation - perfect for use with occupancy sensors. Conventional
systems can take up to 8-20 minutes to turn on completely and frequent on/off operations will damage other lighting
components.
• Minimal damage by vibration – perfect for Parking Garages, Bridges, Highways and City Streets where vibration often
damages the ballasts and filaments in traditional lighting systems.
• Lightweight for ease of installation compared to other lighting systems, especially, where access to fixtures is difficult,
inconvenient, or dangerous, such as Street Lights, Tunnels, and 24-Hour Facilities with High Ceilings.
• Ideal for applications with high ceilings requiring high-color rendering and maintained lumen levels.
• Ideal for applications requiring instant start-up capability.
Proprietary Heat Dissipation Design: Proper heat dissipation and ingenious design is also another key advantage of HyLite
Induction Lighting Systems. For many years, lighting companies have relied on fixture manufacturers to integrate their
product and deal with the “real world” problems such as dust, maintenance and heat dissipation. It was believed the issue
was in the light and the ballast itself. Working with some of best engineers and technicians, we developed individual heat
dissipation solutions for various parts in our products from the ground-up.
Dimming and Smart Controls: HyLite Induction Lighting Systems are ideally suited for Dimming and “Smart” Controls. We
offer innovative solutions designed to help customers reduce their overall energy costs as well as minimizing maintenance
expenses associated with maintaining their lights. Last but not least, HyLite is an induction system that is dimmable - we
have developed a method to dim the light down to 50%. You can integrate building systems and smart artificial intelligence
controls such as photo sensors to also control these lamps.
Superior Overall Performance: HyLite goes further by using proprietary designs, ultra-modern manufacturing and special
lighting analysis programs to enhance the overall value proposition. HyLite Induction Lighting Systems installations achieve
better lighting quality and substantially higher savings. HyLite Induction Lighting Systems deliver a range of product features
and benefits designed to reduce installation time, costs, and ongoing maintenance.
• Housing: High Quality Die Cast Aluminum - Smooth, Light & Sturdy with Streamlined Contours for Low Wind Resistance
• Finish: High Quality Electrostatic Powder Coated Finish for Corrosion Resistance and Durable use
• Reflector: High-purity, Faceted Specular Aluminum Reflector is Designed for Maximum Photometric Efficiency and
Optimum Light Distribution
• Lens: High Quality, High-impact, Heat Resistant Tempered Clear Glass of High Transmittance for Shock Resistance
and Durable use
• Seal: Heat-resistance and Gas Tight Seal ensures Weather Proof Seal. Ideal for Dusty or Wet Environments
• Structure: Uniquely Designed Structure for Easy Installation and for Ease of Maintenance
• Versatile: Adjustable Installation Angles
• Maintenance: Virtually Maintenance-free
• Certifications: UL/CUL, ETL, TUV, CE Listed and RoHS and ISO Certified
Variety of Uses: HyLite Induction Lighting Systems offer the highest Wattage Outputs available for a variety of uses (up to
500 watts - equivalent to a 1250~1500W HPS/MH Bulb). Currently, HyLite is the first and only manufacturer in the world to
produce and sell a 500 watt induction lamp. The higher wattage lamps make replacement for Street, Roadway and High-bay
Metal Halide solutions even more convincing. Higher wattage means higher ceilings, more coverage area, and more up-front
savings on installation. Our lamps offer a virtual “Instant-on” capability, which provide important safety benefits.
Maintenance-free: HyLite Induction Lighting Systems eliminate the costs associated with servicing a lamp, including the
replacement bulbs, the service crew, and the economic losses incurred when a lamp is out or produces too little light. HyLite
systems provide a bright and clean environment, which helps to decrease the risk of accidents.
Better for the Environment: The HyLite Induction Lighting System is eco-friendly. It uses less energy than conventional
lighting and is more efficient. HyLite Induction lamps require fewer lamp change-outs, which result in less electronic waste
going into our landfills. The end result: Because they are more energy efficient and eco-friendly than currently installed
technologies, HyLite Induction Lighting Systems save businesses and taxpayers tangible dollars, while also reducing the
overall carbon footprint.
Why HyLite Induction Lighting? Our HyLite Induction Lighting solutions will light up your bottom line. Changing to
HyLite Induction Lighting from existing Metal Halide, High Pressure Sodium or Mercury Vapor Lamps provides as much as
65%~75% energy savings and up to 80% in maintenance costs. Including the rebates and tax incentives, payback can
occur in less than a year. And that’s just the beginning! HyLite Induction Lights produce light that is simply easier for the eye
to see while using far fewer watts!
Cost Advantages…
• Clean Power, Less Resistance, Cheaper Wiring Infrastructure (often ignored) and less Aging of the Wiring.
• Fastest Return on Investment (ROI): Compared to any other lighting solution - as fast as 1-year
• Longer Life: Lamps last up to 100,000 hours. That’s over 10 times longer than a standard incandescent, 5-13 times longer
than metal halide and 5-7 times longer than standard fluorescent.
• Energy Savings: Uses 65%~75% less energy than Metal Halide, High Pressure Sodium or Mercury Vapor Lamps
• Minimal Maintenance Costs: Up to 22 year replacement interval. Seldom needs replacement parts.
• Tax Benefits & Rebates: Federal Energy Tax benefits and state utility rebates in energy efficient technologies make our
HyLite Induction Lighting a smart investment.
• Unmatched Energy and Maintenance Savings
• Lowest Lifetime Cost of any Light Source
• Reduced Inventory: Reduce the cost of warehousing large amounts of inventory, the logistic costs, the overhead costs of
keeping a relatively large service crew, etc. Using a lamp with a longer service lifespan means you can maintain a smaller
(or no) crew and waste less time organizing regular maintenances and the associated logistics. It gives management more
flexibility and more efficient operations.
Product Advantages…
• Quality: Provides better Color and Illumination than Metal Halide, HPS, Mercury Vapor Lamps or Fluroscents
• Unlimited Instant On/Off Cycles with Instant Re-Strike
• Eliminates Cold Start and Flickering issues
• Produces more Pupil Lumens per Watt than Conventional Bulbs
• High Efficacy, Non-Glare Bulbs
• Scotopically enhanced 5000K, 80+CRI Light Output for Excellent Visibility
• Lower Heat Output. Operates up to 75% Cooler than Conventional Light Sources
• Dimming and Step-dimming capabilities for added savings
• Excellent Vibration Resistance
• Durability: Wide Temperature Range (-20°F to 130°F)
• Excellent Lumen Maintenance, 70% over fifteen years
• Easy installation for new and retrofit applications
• Flexibility: Available in custom wattages and a wide range of color temperatures
• Universal Voltage Standard 120~277V, 50~60 Hz.
Environmental Safety...
• Lowers CO2 emissions, significantly reducing carbon footprint
• Meets initiatives for energy savings and environmental protection through the use of alternative lighting solutions
• Meets sustainability objectives – over the entire life of product
Applications with High Potential for HyLite Induction Lighting Systems:
HyLite Induction Lamps are a “broad source” rather then a “point source” like HID or LED lamps. This results in low glare as
compared to traditional lights sources, such as, HPS, Metal Halide or Mercury Vapor. HyLite Induction Lamps are excellent
for a wide range of applications, including:
• Applications that benefit from longer operational life due to high maintenance costs (for example where special lifts are
required to service high lobbies, indoor gymnasiums, sport complexes, parking lots, street lighting, etc.)
• Hard-to-reach locations or in high ceilings
• Where there is continuous operation and interruptions are costly, such as Warehouses, Manufacturing, Distribution
Centres, etc.
• In applications where the lamps are difficult, costly or hazardous to access, such as Gas Station Canopies
• In areas that require lamps to reach full illumination immediately, such as Security or Tunnel Lighting
• In areas that are prone to constant vibrations, like, Bridges, Parking Garages, Street and Roadway Lighting, etc.
• Cold environments, such as walk-in Coolers and Freezers
• Where high-quality lighting is required or highly desirable and where reliability is highly valued
Outdoor Applications: Outdoor environments, such as heavily traveled Roadways, Tunnels, Underpasses, and Bridges,
or any situation where lamp replacement is logistically challenging, costly and dangerous. HyLite Induction Lighting Systems
are rated at 100,000 hours and will typically outlast 100 Incandescent, 10 CFL, 8 Metal Halide, or 6 HPS lamps before you
need to replace one of our lamps.
• Streets & Roadways, Highways, Airports Parking Lots, Parking Garages, Wall Exteriors, Roofs, etc.
• Outdoor Area Lighting, like, Parking Lots, Public Spaces, Walkways, etc.
• Tunnels and Bridges
• In Extremely Cold Temperatures
• Manufacturing Facilities
• Industrial Sites
• Tennis Courts, Stadiums, Parks, Arenas, Fields, etc.
• Railway Stations, Airports, Bus Stations, Taxi Stands, Bus Stops
• Security Lighting
• Gas Stations
• Billboards
Indoor Applications
• Warehouses and Manufacturing Facilities with High Bays
• High-Ceiling Applications, like Exhibition Halls, Cafeterias, etc.
• Recreational Facilities, such as Indoor Courts, Gyms, Pools, etc.
• Freezer and Cold Storage Lighting, like Food Storage/Processing
• Retail, Supermarkets, Hospitals, Schools and Universities, etc.
With a virtually zero maintenance requirement, HyLite Induction Lighting Systems offer a vastly extended “real world life” and
deliver significant savings on maintenance costs - eliminating the inconvenience and indirect cost of interrupting existing
operations to manage a maintenance project. These significant savings are especially apparent when working within a large
infrastructure (e.g., a state or municipal highway grid). Other conventional lighting technologies such as Metal Halide and
High Pressure Sodium (HPS) require frequent maintenance, which add to costs.
The HyLite Induction Lighting Difference...it’s what meets the Eye!
Before: 250W Metal Halide Lights
After: 100W HyLite Induction Lights
Before: 400W Metal Halide Lights
After: 80W HyLite Induction Lights
- Energy Savings of 80-95% (including the ballast factor)
Before: 400W Metal Halide Lights
After: 80W HyLite Induction Lights
- Energy Savings of 80-95% (including the ballast factor)
Before: 320W HPS Lights
After: 80W HyLite Induction Lights
- Energy Savings of 75-90% (including the ballast factor)
The HyLite Induction Lighting Difference...Seeing is Believing!
Before: 400W HPS Lights
After: 150W HyLite Induction Lights
Superior Light Quality with Energy Savings
of 65-75% (including the ballast factor)
Before: 400W
Metal Halide Lights
After: 200W HyLite
Induction Lights
Before: 400W
Metal Halide Lights
After: 200W HyLite
Induction Lights
The HyLite Induction Lighting Difference...it’s what meets the Eye!
Before: 400W Metal Halide Lights
After: 200W HyLite Induction Lights
Before: 250W HPS Lights
After: 100W HyLite Induction Lights
The HyLite Induction Lighting Difference...Seeing is Believing!
Before: 400W HPS Lights
After: 200W HyLite Induction Lights
Before: 400W Metal Halide Lights
After: 200W HyLite Induction Lights
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