High Lighting Efficiency 

LED lighting efficiency has greatly advanced through technology innovation over the last several decades. Efficiency of 
Incandescent and halogen tungsten lamps are 12-24 lumens per watt, fluorescent lamps are 50-70 lumen per watt 
and sodium lamps are 90-140 lumen per watt. The result of this is poor efficiency as most of power consumption is 
a result of the heat generated by these styles of lamps. LED lighting efficiency will reach upwards of 200 lumens per 
watt while maintaining 90% efficiency. This will be achieved while delivering benefits such as excellent color rendering
 index, narrow light spectrum, and no UV emission resulting in no need for filtration. 

Low Power Consumption 

Achieving the same light output, the power consumption of LED is only 1/8 of that for the incandescent lamp, and ½ of 
that for the fluorescent lamp. 

Long Life 

Using electronic light field emission based lighting has many disadvantages. Such as the filament is apt to become hot,
 the heat will be in aggradation and the light will attenuate. This is not an efficient light source. If these lamps had to pass 
today’s certifications, they would fail. Seesmart LED based lighting solutions utilize small volume, lightweight, epoxy 
packaged to withstand high strength mechanical shock and vibration. The average lifetime is 50k hours. The lifetime of 
LED based lighting can be 10 years or more based on hours of daily operation. Utilizing Seesmart LED solutions result in 
greatly reduced maintenance costs, capital intensive inventory of lamps and ballasts, increases productivity and effectiveness 
of current staff and brings the opportunity for utility-based incentives. 

High Reliability & Safety 

EcoGreen LED products offer advantages such as low heat emission, no heat radiation, low temperature light source, 
much cooler to the touch, lighting color and angle can be controlled accurately, lighting color is less intensive and 
damaging to the eye, does not cause headaches, and no mercury, sodium or other hazardous substances used. 
The integrated microprocessor can control the light intensity, adjust the lighting mode and realize the combination of 
light and art in a finished product. 


LED lighting is a solid-state product. This offers such features as vibration resistance, hi shock value, durability and 
enables the use of recyclable materials due to its production of convective heat versus radiant heat. This results in 
fewer lamps in landfills, as they will not break, shatter and the long lifespan of the finished product. The light is also
 much easier controlled and will not cause light pollution like other light sources. It is very well controlled and can be 
re-claimed and placed where needed. The light source is small in size and can be combined for high power applications 
when needed. 

It is simple to be developed into portable, thin and short compact lighting products. Indeed the energy savings is a 
major contribution in the implementation of LED, however the environmental impact of using this light source is exponential. 
The use of recyclable materials in our finished products, the cradle to cradle lifecycle, No hazardous gases or filaments,
 long life span, efficient power supply integration, low heat radiation, significant reduction in carbon footprint for every LED 
implemented and when integrated with smart controls, the energy savings becomes even better. Although it is more expensive 
than the traditional light sources, the energy saving for one year can offset the cost of LED light source and create a short 
Return on Investment (ROI).