TillthedayiDIE420
Well-Known Member
The G2 Plasma Grow Light:
· Color: 5,600K
· CRI: 95
· Average Life: 30,000 Hours
· Input Power: 300 watts
· Input Voltage: 120-277V
· Luxim Light Engine, Light Type Generation 2 G2
· Warranty: 3 years
Available in either 120v or 240v. Choose option below.
Yes it is the industrys first plasma grow light. Look at the light spectrum graph and prepare to be impressed. This light puts out lumens are comparable to a 600 Watt (manufacturer states 1000 Watt) HID using ONLY 288 watts! Simply Incredible! Be the first on the cutting edge of indoor technology and brag to your friends!
PlasmaGrow Frequently Asked Questions
How does the spectrum of the PlasmaGrow compare to that of a metal halide or high pressure sodium light?
Due to its very broad light spectrum, the PlasmaGrow light is like having the combined spectrums of a MH and HPS in one compact unit.
How bright is the Stray Light PlasmaGrow?
When positioned properly (about 8 from the plant canopy) it approximates the intensity of a 600 watt HPS and a 1000 watt MH. At maximum intensity the light will yield a 3 x 3 pattern. Similar to other lighting technologies, when you move the light further from the canopy the intensity will be less.
How much energy will I save with the PlasmaGrow?
The Stray Light PlasmaGrow draws only 288 watts and less than 3 amps on a 120V circuit. Thats over a 70% reduction in energy as compared to a 1000 watt metal halide! The energy consumption is less than 50% of a 600 watt high pressure sodium light. An additional benefit may be seen in energy savings due to a reduction in cooling costs.
How do I cool the Stray Light PlasmaGrow?
The PlasmaGrow light is very efficient at turning electrical energy into light so that little excess heat is generated. It is very likely even in a warm weather environment that no elaborate air exchange/cooling will be necessary for your greenhouse or indoor garden.
How long will the bulb last?
The PlasmaGrow light engine is rated to 30,000 hours. At 14 hours a day running 365 days a year you will enjoy 6 years or more of service free light. After 6 years the unit can be sent in for a new light engine costing about half of the original unit cost. The fixture may be recycled up to 3 times.
How close can I put the light to my plants?
The Stray Light PlasmaGrow generates very little heat, especially heat that radiates outward from the lens. To maximize the light intensity and photosynthetically active radiation (PAR) light for your plants, positioning the lamp approximately 8 from the plant canopy is optimal. Some plant species are more or less tolerant to heat and adjustments may be necessary. Moving the light further away from the plant canopy will increase the footprint of the light but decreases the intensity of the PAR light.
Is the Stray Light PlasmaGrow light controllable?
Yes, by special order you can add a dimmable feature, PLC integration or even customize a solution to allow control through mobile devices. Please call for quotes and lead times.
Where can I buy the Stray Light PlasmaGrow light?
The Stray Light PlasmaGrow is distributed exclusively through Polar-Ray.com to retail grow shops throughout North America.
Does the Stray Light PlasmaGrow have any compliance certifications?
Yes, the fixture is both FCC compliant and UL listed.
Is the Stray Light PlasmaGrow light safe to use in a high humidity environment?
Yes, the fixture and power supply are damp rated for use in high humidity environments.
How much does the Stray Light PlasmaGrow weigh?
The PlasmaGrow weighs 19 pounds including power supply.
How long is the electrical cord to the lamp?
There is 7 feet of cord from the PlasmaGrow to the transformer and 11 feet from the transformer to the plug.
What is the warranty for the Stray Light PlasmaGrow?
The PlasmaGrow light carries a three year warranty.
www.Monstergardens.com
Or the LG PLS from http://www.100cds.com/indoorlight.html
PSH Series, indoor lighting stands out from the crowd in terms of design and performance and has remarkable durability and safety. This wide and consistent natural lighting provides long-term cost effectiveness.
Ideally suited for places where eye comfort is important; in the office, factory, gymnasium, shopping centre, under a marquee, large hall, cafeteria and public facilities etc.
Excellent Quality of Light
Has outstanding reproduction of natural color and visual recognition by high CRI
World's First
World's First 100% eco-friendly High Power Lighting
Econommical Lighting
Outstanding lumen maintenance, high luminous flux and A uniformity of 120 degree light distribution offers long-term economical efficiency
Specification
Power Cunsumption: 730W
Lumen: 58,500 lm(7500K)
Color Temperature: 4500K, 6500K, 7500K
Color Rendering Index: 80 Ra
Beam Angle: 50˚, 90˚, 120˚
Rated Voltage: 220V/60Hz, 50Hz
Weight(Kg): 19kg (Ballast Included)
Eco-Design: Hg-Free, Lead-Free
Dimensions
Cone Lux Levels
Photometrics
and then..... the Alvara from http://www.ceravision.com/page/alvara-range
Alvara®
- Industrial Lighting (High Bay)
- Commercial Lighting (Low Bay)
- Amenity/Street Lighting
The first product, the Alvara® 400 High Bay, has been designed to replace existing technologies currently serving the high bay warehouse market.
Benefits of the Alvara® 400 include:
- Exceptional energy savings
- Reduction of existing fittings
- Dimming to 20%
- Fast on and hot re-strike
- Intelligent lighting controls giving greater flexibility and allowing the efficient scheduling of maintenance
Plasma International lighting... http://www.plasma-i.com/sulphur-plasma-light.htm
this is my favorite
Plasma-i AS1300 Light Engine
The Plasma-i Light Engine generates a solar like light flux. The lamp power can be set by software to a desired level between 500W and 1300W and the light spectrum remains almost
unchanged between 600W and 1300W power setting.
This unique spectral property is achieved with our electrodeless bulb design, where the bulb converts the externally generated HF energy into light at high efficiency.
The HF energy (microwaves) are generated with a magnetron that is powered from an adjustable stabilized power source.
Both the light engine & power supply are air cooled with fans.
System specifications (with Standard Sulphur Emitter SS0 bulb):
Designation: Plasma-i
Model: AS1300 version 1.1
System power: 1360W 5.9A 230 VAC
Luminous Flux: >163,000 lm
Input electrical power at 230VAC: 500 to1,300 W
Output optical power for 1m2: 380 to 1,010 W
Power Factor: >0.95
Emissions Standard: Fully EC compliant (2010)
Discharge bulb: Electrodeless, Sulphur based (SSX)
Spectral shift: None
Luminous efficiency: 140lm/W
Correlated Colour Temperature: 6,000K
Colour Rendering Index: 80 Lamp intensity shift: None UV output: <380nm 0.14% IR output: >780nm 8.0% Convected & Conducted Heat: <19% Total Heat: <27% Design Lifetime: ca. 99,000Hr Service: Magnetron change every 40,000Hr Cooling of system: Fans (3x) 36dB Cooling: 140m3/hr exhaust 25°C higher than intake Light Engine Size: L250 x W190 x H175 mm Mass of Light Engine: Approx. 9 Kg PSU Size: L250 x W150 x H195 mm Mass of PSU: Approx. 3 Kg PSU Control Facility1: Hardware manual control ON/OFF with variable input power control (dimming). PSU Control Facility 2: Hardware voltage control. BMS compatible 0 to 10V control. 3.5mm jack plug. PSU Control 3: Networking Hardware & Software requires a single PC with Windows XP/ W7 & RS232 port. Can be used to control several light engines. PSU Control 4: Software including power and temperature monitoring information requires a single PC with Windows XP/ W7 & RS232 port. Characteristical variances in bulb mix range: The CRI is between 98 (60 lm/W) & 80 (140 lm/W) and hot re-strike is between 20 & 180 seconds depending on which bulb mix is used.Operating Conditions: Ambient temperature +5°C to +35°C Humidity <60%, non-condensing. As no filter is provided on the air cooling system the standard system has to operate in a clean environment with no dust emitting processes nearby.
Sulphur Plasma Lamps Sulphur Plasma lamps are between 25% & 100% more efficient than any other artificial source of high quality white light. The light is true full spectrum daylight and thus features all of the qualitative benefits of sunlight.
The sulphur plasma consists mainly of dimer molecules (S2), which generate the light through molecular emission. Because this, instead of atomic emission, is the mechanism of light generation, the emission spectrum is continuous throughout the visible spectrum.
The lamps output is low in infrared energy, and less than 1% is ultraviolet light. As much as 75% of the emitted radiation is in the visible spectrum, far more than other types of lamps.
The visible light output mimics sunlight better than any other artificial light source, and the lack of harmful ultraviolet radiation can be especially benefi cial to more vunerable fixtures, equipment, young plants and humans.
The spectral output peaks at 520 nanometers and the correlated colour temperature (CCT) is approximately 6000 kelvins with a colour rendering index (CRI) of 86. The lamp can be dimmed to 40% without affecting the light quality, and light output remains near constant over the life of the bulb.
UV / IR vs. Visible Light
With almost no ultraviolet and very little infrared light the lamp is easier to use with plastic fixtures or fibres and the best light to display foods, clothes and all forms of art and museum articles without degradation from UV or Infrared Heat.
With Plasma International Lighting Systems there are none of these risks or problems, the spectral output is truly full and continuous, not just for hours, but for years, with no qualitative or quantitative degradation.
There are currently 2 variations of the plasma lamp available, the Standard Sulphur lamp (SS0) and the Triple A class Solar Simulator lamp (AAA).
The three standards that define solar simulator performance, in order of most demanding parameters first:
- JIS C 8912-1998, Solar Simulators for Crystalline Solar Cells and Modules
- IEC 60904-9 Edition 2 (2007) Photovoltaic Devices Part 9: Solar Simulator Performance Requirements
- ASTM E 927-05 (2005) Specification for Solar Simulation for Terrestrial PV Testing
Standard Sulphur Lamp Spectrum (SS0)
AAA Class Lamp Spectrum (AAA)
Class A Standards and Specifications (in order of organisational popularity)
Performance Parameter Organization
IEC
JIS
ASTM
Spectral Match (fraction of ideal percentage 0.75 1.25
0.7 1.25
0.7 1.25
Non-uniformity of irradiance ≤±2%
≤±2%
≤±2%
Temporal Instability ≤±2%
≤±2%
≤±2%
How Does Plasma Compare to other Light Sources?
Spectral Match How close it is to the power of visible and invisible colours that are in sunlight.
Non-Uniformity of irradiance - How evenly spread out (distributed) it is.
Temporal Instability How constant the output is.
A New way of Measuring is Needed
We can not claim higher luminous efficiency than a sodium lamp or higher PAR (Photo synthetically Active Radiation) than a metal halide or sodium lamp because when we measure our plasma lamp in lumens or micro moles it nearly always measures at least 30% less than other HID lamps of the same wattage. We will claim a higher PUR (Photo synthetically Useful Radiation) value because we believe the plasma lamps that we manufacture are the only lamps that are truly a full and continuous spectrum and thus, completely unlike LED's, deliver all of the light that is useful for photosynthesis.
Conventional methods of measuring light for humans use lumens, deemed useless for horticulture, horticulturists measure light in micro moles (µmoles). Working with British, German and Dutch horticulturists and researchers I have learnt that micro mole measurements are the best indicator we have at this time. The results from real world tests indicate that a plasma lamp, that measures 30% micro moles 'less' than a High Power Sodium Lamp of same wattage, produces at least 30% more biomass, and can fully grow cucumbers to European standards 10 days sooner. After eating them myself I can confidently write that in my opinion cucumbers grown in continuous full spectrum light with a low PAR value, compared to HPS, have better aroma, flavour and colour. My hunch is that the nutritional value will be far higher also, especially as thinking it will be the same is disregarding the principles of logic!
Horticultural Research
An artificial solar spectrum substantially alters plant development compared with usual climate room irradiance spectra
Plant responses to the light spectrum under which plants are grown affect their developmental characteristics in a complicated manner. Lamps widely used to provide growth irradiance emit spectra which are very different from natural daylight spectra. Whereas specific responses of plants to a spectrum differing from natural daylight may sometimes be predictable, the overall plant response is generally difficult to predict due to the complicated interaction of the many different responses. So far studies on plant responses to spectra either use no daylight control or, if a natural daylight control is used, it will fluctuate in intensity and spectrum.
more info »
Full, Continuous & Highly Efficient Spectrum
Lamp Power Rating
1000W
Lamp Envelope Sphere Outer Diameter
AS: 32mm
AAA: 35mm
AAA: 35mm
Lamp Rotation
0 to 6000rpm
Plasma Lamp and Plasma Drive Synergy
System Power Rating
1360W (AvFP 5.9A 230VAC)
System Efficiency
<140Lm/W
Plasma-i Lamp Life
>99,000Hrs
Light Engine Magnetron
>40,000Hrs
Weight
<12Kg
Light Engine Size L250 x W190 x H175 mm PSU Size L250 x W150 x H195 mm
Electrical Performance
Input data
Mains voltage
230 VAC +-10%
Mains frequency
45-65 Hz
Power factor
>0.95 at 1300W and 230 VAC
Output data
Anode power
100-1300 W set in 10W steps. Regulated by CPU.
Anode voltage
(Application dependant)
Anode current
25-350 mA
(Application dependant)
(Application dependant)
Filament current
4-10 A. (Parameter setting varied by application.)
Efficiency
>93% at full power
Protection
Filament circuit
Open circuit / short circuit protected
Anode circuit
Open circuit / short circuit protected.
Software/Interface
Interface
RS 232 optically isolated.
Control Microsoft Windows compatible
multi-lamp remote control
networking module available
multi-lamp remote control
networking module available
Approvals & Environment
Safety
EN 61010
Harmonics conducted
EN 61000-3z
EMC
EN 61000-6-3 Emission
(Industry),
EN 61000-6-2 Immunity
(Industry),
EN 61000-6-2 Immunity
Recommended
Ambient
Ambient
-25 to +50 C°
Humidity
Non Condensing)
Narrow Spectrum
Typical spectra
Center fq
2,45 GHz
Fq scale
2 MHz/div
RBW
30 kHz
Amplitude scale
10 dB/div
High speed Sulphur Plasma Ignition Film.
The Sulphur Lamp (also Sulfur Lamp) is a highly efficient full-spectrum electrodeless lighting system whose light is generated by sulphur plasma that has been excited by microwave radiation. Filmed by Nick Paris using an OLYMPUS I-SPEED 3 CAMERA.
Also LIGHT PIPES!!!
http://www.plasma-i.com/light-pipes.htm
http://www.youtube.com/watch?v=FP59U7LH7Wo&feature=player_embedded
Or
http://www.youtube.com/watch?v=XwHrCa3ie88&feature=player_embedded
An artificial solar spectrum substantially alters plant development compared with usual climate room irradiance spectra
+ Author Affiliations
- Wageningen University, Department of Plant Sciences, Horticultural Supply Chains Group, Wageningen, The Netherlands
- *To whom correspondence should be addressed. E-mail: [email protected]
- Received October 20, 2009.
- Revision received January 5, 2010.
- Accepted January 8, 2010.
Abstract
Plant responses to the light spectrum under which plants are grown affect their developmental characteristics in a complicated manner. Lamps widely used to provide growth irradiance emit spectra which are very different from natural daylight spectra. Whereas specific responses of plants to a spectrum differing from natural daylight may sometimes be predictable, the overall plant response is generally difficult to predict due to the complicated interaction of the many different responses. So far studies on plant responses to spectra either use no daylight control or, if a natural daylight control is used, it will fluctuate in intensity and spectrum. An artificial solar (AS) spectrum which closely resembles a sunlight spectrum has been engineered, and growth, morphogenesis, and photosynthetic characteristics of cucumber plants grown for 13 d under this spectrum have been compared with their performance under fluorescent tubes (FTs) and a high pressure sodium lamp (HPS). The total dry weight of the AS-grown plants was 2.3 and 1.6 times greater than that of the FT and HPS plants, respectively, and the height of the AS plants was 45 times greater. This striking difference appeared to be related to a more efficient light interception by the AS plants, characterized by longer petioles, a greater leaf unfolding rate, and a lower investment in leaf mass relative to leaf area. Photosynthesis per leaf area was not greater for the AS plants. The extreme differences in plant response to the AS spectrum compared with the widely used protected cultivation light sources tested highlights the importance of a more natural spectrum, such as the AS spectrum, if the aim is to produce plants representative of field conditions.
Circadian Rhythms - Natures Time Keeper (CFSL) There are patterns of brain wave activity, hormone production, cell regeneration, and other biological activities linked to the 24-hour cycle. The circadian "clock" in humans is located mainly in the suprachiasmatic nucleus (SCN), which is a group of cells located in the hypothalamus (a portion of the brain).
Circadian rhythms are important in determining human sleeping patterns. Shifting into or out of daylight savings time, traveling across time zones (which can cause jet lag), or working at a job that involves late evening or night time work can affect the body's circadian rhythm. In a person with a circadian rhythm sleep disorder, the body is unable to maintain its normal rhythm. The natural sleep schedule changes so that the person is out of phase with day and night.
Light around 460nm (blue) is needed to set the internal clock to the day cycle or time schedule appropriate to where the person is.
Sulphur Plasma: Is the best light source that ensures better eyesight and reduces eye fatigue with uniform illuminance, suitable for the spaces where excellent colour rendering capability is required. It ensures better eyesight and safer light environment with uniform illuminance by providing sun-like light environment, it reduces eye fatigue and enhances productivity.
Photopic Vision:
Mesopic Vision:
Scotopic Vision:
As much as possible, light "treatment" should be administered on an individual prescribed basis, we all have differing needs and bio compatibilities. We certainly don't claim an "All-in-One solution from using sulphur plasma lighting. However, until we work out how to pipe sunlight to the dark side of Earth, we do our best to provide information that will be useful and helpful.
Perhaps we should question the real usefulness of contemporary measurements in Lumens (photopic brightness), Kelvin (colour compared with heating Carbon), CRI (Rendering compared with a Tungsten lamp from the previous millennium) and Lumens per Watt (efficiency and efficacy are not the same). The relevance of any measurement is very dependent upon the intended application and the way the user interprets the meaning or significance of the measurement or definition.
Much has been written about Continuous Full Spectrum Lighting (CFSL), sadly, nearly all refers to using Fluorescent Mercury or Metal Halide or Xeon lamps. Most articles written, even by experts and professional practitioners, no matter if For or Against CFSL, could not be much further from the truth. All too often, they have never even seen sulphur plasma light, they dont know what it is and are quite ignorant of Far Eastern research and practices taking place during the last decade.
Continuous Spectrum
Full Spectrum
Full Spectrum
Sunlight is considered full spectrum, even though the solar spectral distribution reaching Earth varies with time of day, latitude, and atmospheric conditions, the filtered and reflected light from the sky, we call skylight. Natural "real" daylight is thus a combination of sunlight and skylight.
Full Spectrum
To see all the colours, to examine a gemstone or a prestige cars paintwork, to see all the fractures, blemishes or faults, no matter what colour the subject is, to visually examine anything properly and maximize ability to identify differences in colour, you need Continuous Full Spectrum Lighting (CFSL).
other company's like LUXIM are using this technology as well but i heard they don't use Argon gas and Microwaves like others which does not make them PLS its Sulfer plasma i believe. they have systems out for Horticulture already made by
Chameleon Grow Systems, Inc.: Solar Genesis Plasma Grow Light
Chameleon® Grow Systems - More light energy (within PAR) than any other grow light on the planet!
Featuring: Longer Lifespan, Less Heat, Less Electricity, Rapid Return on Investment
Solar Genesis® I & II Plasma Grow Lighting
- Energy efficient LEP technology, leading the way in the residential & commercial grow lighting industry
- Platform for horticulture research to reduce our dependence on chemical plant growth regulators
But for $7000 dollars NO THANKS chameleon........ Check them out at...
Now Last on my list is Gavita Holland
http://www.gavita-holland.com/index.php/home/item/gavita-pro-300-lep.html
Gavita Pro 300 LEP
Light Emitting Plasma
24 August 2010
GAVITA Pro 300 LEP
Posted in Product news
Introducing solid state horticultural plasma light
After long trials with various crops and lamp combinations we are proud to present to you the first horticultural LiFi solid state plasma luminary: The GAVITA Pro 300 LEP (Light Emitting Plasma).
Growing in indoor conditions without sunlight not only requires a good climate, but also a good quality light. Though one can grow successful under HPS alone, or a combination of HPS and MH, it is still not the full spectrum our sun delivers. The GAVITA Pro 300 LEP produces light with a spectrum similar to that of the sun.
Plants have evolved under sunlight over millions of years. University studies have shown that seedlings and cuttings grown under full spectrum plasma light develop much better than under HPS or CFL light and produce more lateral branches. The dry matter increases up to 30% and the plant structure is more even and better distributed compared to HPS. It brings your plant into the best conditions for generative development. Depending on your crop you can either use only the plasma light or a combination of plasma light and HPS for plants that thrive on red light for generative development.
The GAVITA Pro 300 LEP is a solid state horticultural plasma light fixture. There are no moving parts in the fully sealed housing, improving the reliability. The light source is a LUXIM STA 41.02 LiFi module which has a rated average life of 30,000 hours. The glass wide spectrum filter allows for low quantities UVB light to pass while shielding you and your crop from UVC. The Miro aluminum reflector generates an even square light pattern. The absence of heat radiation in the light allows you to hang the lamp close to your crop, or to add the light without adding extra heat radiation to your crop.
Hope This will clarify the usefulness of Plasma. With out a doubt this will save you Cash Money!!!!!!!!
I will have pictures in a months time roughly, in my thread Closet of EDEN.
Plasma + LED + t5 Grow
Enjoy this info people. Anyone have further input, Be my guest! more info the better!
till~420
)
when your growing 3 years income can last what seems like forever!! Lmao when your income in 3 years is $360,000ish that is 
