Grow Lights - Starlite LED

2016
Grow Lights
www.starlite-led.com
2
Company Background
For the past decade, Starlite has been a pioneer
in the lighting industry testing the boundaries of
what is possible. What began as an R&D team in
the heart of the Silicon Valley has turned into a
global company set on producing the most technologically advanced light fixtures in the world. As a
member of the global community, Starlite firmly
believes in producing environmentally-friendly
fixtures in an environmentally-conscious manner.
We are proud to present our new line of LED lights
tailored to the horticultural market. Our horticultural
line reflects years of research and development
culminating to a fixture design that focuses on
spectral wavelengths and high power light distribution. This is only the beginning for Starlite, as we
approach the horticultural industry with our trademark pioneering spirit and set out to push the
boundaries once again.
3
4
The 3-Pad Flip Chip
3 Steps Ahead of the Competition
In an industry where everyone uses the same wire-bond LED chips from the same
manufacturer, Starlite LED has gone against the grain and partnered with Flip Chip
Opto integrating their patented 3-Pad Flip Chip structure into Starlite LED's core
business model. Flip Chip Opto is an American LED Flip Chip COB manufacturer
based in the Silicon Valley, where the primary objective is to test the limits through
engineering and innovation. The unique thermal properties of their LED chips
allow immense light output from a small form factor. Together, with the combination of the newest LED technology, and years of thermal management experience,
Starlite LED will tailor the most advanced, high performing light fixtures to the
horticultural industry.
Thermal management is the biggest limiting factor for LED grow lights. Excessive
heat damages the electrical components and reduces the life span of the LED
chips. Prolonged exposure to high heat also causes a drop in efficiency, leading to
reduced light output. This is where the Optilux and Helios GT series excel. Our
LED chips and circuit board are unlike anything on the market. The patented
design allows us to remove heat one hundred times faster than standard LED
COBs. This is achieved by applying a thermal pad on the underside of each chip
and creating a thermal Super Pillar on the circuit board. Once the chips are bonded
onto the circuit board, a direct path is created from the LED chip to the heat sink
resulting in a COB with unparalleled thermal dissipation.
5
Comparing COBs Types
Legend:
Electrode
Thermal Dialectric
Metal Core
Conventional COB
Conventional COB LEDs rely on bonding wires from the
power source to the chip in order to deliver driving current.
This old technology is the least efficient way of managing
heat, resulting in a few major problems. The excess heat
reduces light output and shortens the lifespan of the LED
chips. Constant thermal variation also causes the wires to
snap over time, leading to reliability issues. Most of the
current LED grow lights use this older technology.
P-Pad
Wire-Bond Chip
N-Pad
Poor Thermal Dissipation
2-Pad Flip Chip
Flip Chip technology was invented to tackle the problems
of Conventional COBs. By flipping the conventional COB
upside-down, the need for wires was eliminated and
thermal dissipation was enhanced. The major issues
were resolved resulting in an increased lifespan and
better thermal management. However, even with enhanced
thermal management properties, the 2-PAD Flip Chip COB
is limited to a maximum power output of around 500 watts.
Regular LED Flip Chip
N-Pad
P-Pad
Thermal Dissipation Through Layers
3-Pad Flip Chip
In 2014, Flip Chip Opto invented the 3-PAD Flip Chip
and completely changed the industry. The addition of a
thermal pad to the LED chip and a custom Super Pillar
on the circuit board resulted in industry-leading thermal
performance. In fact, the 3-Pad design exhibits the lowest
thermal resistance in the world at 0.003°C/W. This
allows for increased efficacy, longer lifespan, and a
reduced thermal management form factor.
6
3-Pad LED FLIP CHIP
N-Pad
T-Pad
P-Pad
Direct Thermal Dissipation via Pillar
7
Duet 2400 features 4 independent 608 watt illuminating sections:
2 red (660nm broadband red) and 2 blue (450nm royal blue)
powering a total of 2433 watts.
8
Producing Red Light
Conventional COBs are also known as discrete
LED packages. These chips are wire-bonded inside
prepackaged structures which are then bonded onto
the circuit board. Most of the current LED grow lights
use red discrete LED packages to illuminate the red
spectrum. The advantage of using discrete packages
is solely based on their high efficacy. They are slightly
more efficient because the red light is emitted
directly from the LED chip itself, whereas LED Flip
Chips featured in Starlite LED’s fixtures generate red
light via a specialized phosphor layer sitting over a
blue LED flip chip.
The second disadvantage is that red LED chips
exhibit higher thermal decay when compared to
green and blue LED chips. This is due to the nature
of the materials used in discrete LED chips. High
thermal decay indicates reduced lighting efficacy
as the system temperature rises. Since we are using
blue LED Flip Chips as our base light-emitter, the
lighting modules do not suffer from significant
thermal decay when used for extended periods
of time. In fact, Starlite LED’s grow lights have
been specifically designed to run 18 to 24 hour
light cycles with little to no thermal decay.
Though the initial efficacy of red discrete LEDs
are higher, these lighting modules suffer from three
major disadvantages at the fixture level. High thermal
resistance is the biggest issue and requires increased
thermal management in order to maintain the LED’s
lifespan and efficacy. Thanks to the 3-PAD technology from Flip Chip Opto, thermal resistance of Starlite
LED’s light engines are over 20 times less than red
discrete LED packages.
The third disadvantage is the narrow spectrum
bandwidth (~25nm) that discrete LED packages
emit. It is difficult for a narrow bandwidth to
simultaneously cover the absorption peaks of
chlorophyll at 640nm and 660nm. On the other
hand, Flip Chip Opto’s Duet technology provides
a broad 80nm bandwidth which sufficiently covers
a majority of the red spectrum. The result is an LED
technology tailored toward horticultural use and built
to perform through many grows cycles with no drop
in efficiency.
9
Heatsinks
Material
The core of the heatsink is integral to
thermal performance. Starlite heatsinks
are equipped with solid aluminum cores,
allowing for a light-weight design without
compromising thermal performance.
In order to handle the thermal footprint
left by the most powerful LED in the world,
you must have the very best in heat sink
technology. Our grow lights feature advanced
heat sink technology that allows us to operate
at high power for prolonged periods of time. Our
patented heat sink starts with an aluminum core
for a light weight design that does not compromise on thermal performance. The high-density
fins are made from cold-forged aluminum to
eliminate gaps and establish uniform consistency. The forged-fins are mated to the core via our
patented Forge Fit Technology. This technology
relies on expanding inserts placed between the
core and the fins. The resulting bond is so strong
that each individual fin can carry the weight of
the entire fixture. Free of any gaps, heat transfer
is optimized establishing the perfect base for our
high power LEDs.
Heatpipes
Starlite LED’s heatpipe technology allows
for optimal heat transfer regardless of
fixture orientation. This enables us to
angle our lights in any direction without
the risk of safety or performance issues.
Patented Bonding
The forged-fins are mated to the core via
our patented fore fit technology. Expandable
aluminum is used to create a one-to-one
connection between the core and the fins.
This bonding method ensures a strong
connection free of any gaps thereby
optimizing heat transfer from the core.
High Density Fins
High density fins are made from cold
forged aluminum to eliminate the
chance for air pockets and establish
uniform consistency.
10
11
Spectrum
Specialists
12
Starlite LED has paired up with Flip Chip Opto’s grow division to develop an optimized
spectrum which promotes maximum Cannabis production. With spectrums ranging from
2700K-6000K CCT and 60-95 CRI, Flip Chip Opto has developed a multitude of optimized
spectrums for different stages of Cannabis Growth. Additionally, options with dedicated
bandwidths in 450nm royal blue and 660nm broadband red are available. Our spectral
range allows growers to choose their preferred lighting spectrums that redirect power
from the green and yellow spectrum, respectively.
Spectrum Graphs
3000K 95CRI
1.8E+05
1.6E+05
Spectral Flux [µw/nm]
1.4E+05
1.2E+05
1E+05
80000
60000
40000
20000
400
500
600
700
800
900
1000
800
900
1000
800
900
1000
Wavelength [nm]
4000K 80CRI
2.5E+05
Spectral Flux [µw/nm]
2E+05
1.5E+05
1E+05
50000
400
500
600
700
Wavelength [nm]
5000K 90CRI
Spectral Flux [µw/nm]
2.5E+05
2E+05
1.5E+05
1E+05
50000
400
500
600
700
Wavelength [nm]
13
Helios GT
100W
PRODUCT PARAMETERS
PART NUMBER
B0100L
OPERATION VOLTAGE
AC 90V ~ 305V
POWER CONSUMPTION
100W
COLOR TEMPERATURE
3000K, 4000K, 5000K
LUMINOUS FLUX
11056 lm
LIGHT EFFICACY
114.4 lm/W
CRI
>70, >80, >90
SIZE
-LXWXH
WEIGHT
150mm x 150mm x 223mm
- KG
2.4kg
LUX DISTANCE CURVE
10374.48 lx
140.97 cm
2593.62 lx
281.93 cm
1152.72 lx
422.90 cm
648.41 lx
563.87 cm
414.98 lx
704.84 cm
288.18 lx
845.80 cm
211.72 lx
986.77 cm
162.10 lx
1127.74 cm
128.08 lx
1268.71 cm
103.74 lx
1409.67 cm
85.74 lx
1550.64 cm
72.05 lx
1691.61 cm
Height E
Diameter
Beam angle of C80 Plane 70.38
Helios 100W | Luna 100 | Full Spectrum
3000
Tested at 4000CCT, 80CRI, 60° Lens, Height at 1ft
Tested at 4000CCT, 80CRI, 60° Lens, Height at 2ft
PPFD (µmol/s·m2)
2500
2000
1500
1000
500
-1.0
-0.8
-0.6
-0.4
-0.2
0
Distance (m)
14
0.2
0.4
0.6
0.8
1.0
Helios GT
185W
PRODUCT PARAMETERS
PART NUMBER
B0185L
OPERATION VOLTAGE
AC 90V ~ 305V
POWER CONSUMPTION
185W
COLOR TEMPERATURE
3000K, 4000K, 5000K
LUMINOUS FLUX
20324 lm
LIGHT EFFICACY
111.5 lm/W
CRI
>70, >80, >90
SIZE
-LXWXH
WEIGHT
254mm x 240mm x 288mm
- KG
3.8kg
LUX DISTANCE CURVE
17982.00 lx
146.46 cm
4495.50 lx
292.93 cm
1998.00 lx
439.39 cm
1123.88 lx
585.85 cm
719.28 lx
732.31 cm
499.50 lx
878.78 cm
366.98 lx
1025.24 cm
280.97 lx
1171.70 cm
222.00 lx
1318.16 cm
179.82 lx
1464.63 cm
148.61 lx
1611.09 cm
124.88 lx
1757.55 cm
Height E
Diameter
Beam angle of C100 Plane 72.47
Helios 185W | Luna 200 | Full Spectrum
1200
Tested at 5000CCT, 70CRI, 60° Lens, Height at 1ft
Tested at 5000CCT, 70CRI, 60° Lens, Height at 2ft
PPFD (µmol/s·m2)
1000
800
600
400
200
-1.0
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1.0
Distance (m)
15
Helios GT
240W
PRODUCT PARAMETERS
PART NUMBER
B0240L
OPERATION VOLTAGE
AC 90V ~ 305V
POWER CONSUMPTION
240W
COLOR TEMPERATURE
3000K, 4000K, 5000K
LUMINOUS FLUX
27448 lm
LIGHT EFFICACY
117.3 lm/W
CRI
>80
SIZE
-LXWXH
WEIGHT
254mm x 240mm x 314mm
- KG
4.4kg
LUX DISTANCE CURVE
13130.10 lx
206.00 cm
3282.53 lx
412.00 cm
1458.90 lx
618.01 cm
820.63 lx
824.01 cm
525.20 lx
1030.01 cm
364.73 lx
1236.02 cm
267.96 lx
1442.02 cm
205.16 lx
1648.02 cm
162.10 lx
1854.02 cm
131.30 lx
2060.03 cm
108.51 lx
2266.03 cm
91.18 lx
2472.03 cm
Height E
Diameter
Beam angle of C80 Plane 91.74
Helios 240W | Luna 300 | Full Spectrum
1600
Tested at 5000CCT, 70CRI, 90° Lens, Height at 1ft
Tested at 5000CCT, 70CRI, 90° Lens, Height at 2ft
1400
PPFD (µmol/s·m2)
1200
1000
800
600
400
200
-1.0
-0.8
-0.6
-0.4
-0.2
0
Distance (m)
16
0.2
0.4
0.6
0.8
1.0
Helios GT
320W
PRODUCT PARAMETERS
PART NUMBER
B0320L
OPERATION VOLTAGE
AC 90V ~ 305V
POWER CONSUMPTION
320W
COLOR TEMPERATURE
3000K, 4000K, 5000K
LUMINOUS FLUX
32778 lm
LIGHT EFFICACY
107.5 lm/W
CRI
>80
SIZE
-LXWXH
WEIGHT
254mm x 240mm x 364mm
- KG
6kg
LUX DISTANCE CURVE
15861.42 lx
203.99 cm
3965.36 lx
407.97 cm
1762.38 lx
611.96 cm
991.34 lx
815.94 cm
634.46 lx
1019.93 cm
440.60 lx
1223.91 cm
323.70 lx
1427.90 cm
247.83 lx
1631.88 cm
195.82 lx
1835.87 cm
158.61 lx
2039.86 cm
131.09 lx
2243.84 cm
110.15 lx
2447.83 cm
Height E
Diameter
Beam angle of C320 Plane 91.18
Helios 320W | Luna 300 | Full Spectrum
1800
Tested at 5000CCT, 70CRI, 90° Lens, Height at 1ft
Tested at 5000CCT, 70CRI, 90° Lens, Height at 2ft
1600
PPFD (µmol/s·m2)
1400
1200
1000
800
600
400
200
-1.0
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1.0
Distance (m)
17
Helios GR
600W
PRODUCT PARAMETERS
PART NUMBER
S0600A
OPERATION VOLTAGE
AC 90V ~ 305V
POWER CONSUMPTION
600W
COLOR TEMPERATURE
3000K, 4000K, 5000K
LUMINOUS FLUX
63745 lm
LIGHT EFFICACY
113 lm/W
CRI
>70, >80, >90
SIZE
-LXWXH
WEIGHT
378mm x 378mm x 593mm
- KG
17.5kg
LUX DISTANCE CURVE
181845.00 lx
49.65 cm
45461.25 lx
99.30 cm
20205.00 lx
148.96 cm
11365.31 lx
198.61 cm
7273.80 lx
248.26 cm
5051.25 lx
297.91 cm
3711.12 lx
347.57 cm
2841.33 lx
397.22 cm
2245.00 lx
446.87 cm
1818.45 lx
496.52 cm
1502.85 lx
646.18 cm
1262.81 lx
595.83 cm
Height E
Diameter
Beam angle of C190 Plane 27.90
Helios 600W | Apollo 1200 | Full Spectrum
3000
Tested at 5000CCT, 70CRI, 25° Lens, Height at 2ft
Tested at 5000CCT, 70CRI, 25° Lens, Height at 3ft
PPFD (µmol/s·m2)
1500
2000
1500
1000
500
-1.0
-0.8
-0.6
-0.4
-0.2
0
Distance (m)
18
0.2
0.4
0.6
0.8
1.0
Helios GR
1200W
PRODUCT PARAMETERS
PART NUMBER
S1200A
OPERATION VOLTAGE
AC 90V ~ 305V
POWER CONSUMPTION
1200W
COLOR TEMPERATURE
3000K, 4000K, 5000K
LUMINOUS FLUX
113458 lm
LIGHT EFFICACY
99.4 lm/W
CRI
>70, >80, >90
SIZE
-LXWXH
WEIGHT
447mm x 414mm x 709mm
- KG
25kg
LUX DISTANCE CURVE
231700.50 lx
62.73 cm
57925.13 lx
125.47 cm
25744.50 lx
188.20 cm
14481.28 lx
250.93 cm
9268.02 lx
313.66 cm
6436.13 lx
376.40 cm
4728.58 lx
439.13 cm
3620.32 lx
501.86 cm
2860.50 lx
564.59 cm
2317.01 lx
627.33 cm
1914.88 lx
690.06 cm
1609.03 lx
752.79 cm
Height E
Diameter
Beam angle of C0 Plane 34.85
Helios 1200W | Apollo 2400 | Full Spectrum
5000
Tested at 5000CCT, 70CRI, 35° Lens, Height at 2ft
Tested at 5000CCT, 70CRI, 35° Lens, Height at 3ft
4500
4000
PPFD (µmol/s·m2)
3500
3000
2500
2000
1500
1000
500
-1.0
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1.0
Distance (m)
19
Optilux 600A
Part Number: OPL600A
Operation Voltage: AC 90V-305V
Power Consumption: 640W
Color Temperature: 450NM Blue / 650NM Red
PPFD Maximum: 2100 @ 1 Feet
Size: 311 x 253 x 137mm
Optilux 600A is a premier product for indoor grow applications. Its compact
structure is designed and brought available with its Flip Chip Opto COB
featuring their famed 3-PAD Patented Technology. Designed with maximum
thermal control in mind, its high performance fan draws an incredible amount
of cooling power into the fixture, allowing its overall temperature to drop
effectively and significantly. Powering 640 actual watts and pumping out an
incredible 2100 PPFD at 1 foot from canopy, the Optilux 600A will promote
growth at the maximum rate.
Optilux 600A | Duet 250D (2x) | Full Spectrum
3000
Tested at 5000CCT, 70CRI, 60° Lens, Height at 1ft
Tested at 5000CCT, 70CRI, 60° Lens, Height at 2ft
PPFD (µmol/s·m2)
2500
2000
1500
1000
500
-1.0
-0.8
-0.6
-0.4
-0.2
0
Distance (m)
20
0.2
0.4
0.6
0.8
1.0
Optilux 600P
Part Number: OPL600P
Operation Voltage: AC 90V-305V
Power Consumption: 640W
Optilux 600P was designed without a fan for noise-sensitive grow operations.
Powering 640 actual watts and pumping 2100 PPFD at 1 foot from canopy, the
fixture uses Flip Chip Opto's 3-PAD Technology to diffuse heat onto it's slim
profile. With this technology, the fixture produces less ambiant heat, allowing
grow operations to have more control with their variables.
Color Temperature: 450NM Blue / 650NM Red
PPFD Maximum: 2100 @ 1 Feet
Size: 600 x 596 x 120mm
Optilux 600P | Duet 250D (2x) | Full Spectrum
3000
Tested at 5000CCT, 70CRI, 60° Lens, Height at 1ft
Tested at 5000CCT, 70CRI, 60° Lens, Height at 2ft
PPFD (µmol/s·m2)
2500
2000
1500
1000
500
-1.0
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1.0
Distance (m)
21
Notes
Contact Us
[email protected]
USA Headquarters
48668 Milmont Drive
Fremont, CA 94538 USA
+1 510 687 1128
+1 800 766 6097
Canada Sales Office
2900 Langstaff Road Unit #19
Vaughan,ON. L4K 4R9, Canada
+1 877 228 3250
Taiwan Sales Office