It seems every day the LED industry is crossing new boundaries, reaching new thresholds, and brightening an expanding horizon. Adding one more reason for optimism, we’d like to share news about the latest developments in integrated daylight harvesting with LEDs. Integrated LED/daylight systems use sensors to assess how much natural light is entering a room, adjusting the LED system accordingly to reach a desired light level. Basically, these integrated lighting systems improve indoor lighting systems by optimizing artificial light in combination with natural light.  The benefit of this system is that it significantly reduces business and consumer energy consumption costs, while greatly improving quality and functionality over conventional lighting set-ups. On their own, high quality LED lights already produce light 80% more efficiently than incandescents. Conventional incandescents actually waste 80% of the energy they require by producing heat rather than light. On this basis alone, it’s clear that LEDs present a huge opportunity for energy savings. With electricity production as the single largest contributor to CO2 emissions, accounting for 38% of U.S. emissions from 1990-2012, the reduction in usage afforded by LED lighting has an enormous environmental impact. But by using natural lights when possible, capitalizing on integrated daylight harvesting with LEDs, the already astonishing energy savings of this revolutionary lighting technology are even greater. Intelligent controls represent one of the greatest advancements brought to us by LED lighting systems. Through digital programming and networked management, LED lighting systems can easily be adjusted to meet predetermined factors. LEDs are superior to CFLs for networked management because they can be turned off and on easier, and can also be finely adjusted. Not only that, but the quality of light produced by many LEDs is actually closer to sunlight than most CFLs, which is another reason people are turning...

Installing LED lights in your business, warehouse or home is the first step toward realizing a dramatically lower lighting bill. The next step is to program LED strip lights to connect with occupancy sensors, timers and smart controls to maximize the greatest savings possible. As demand for green technology and efficient use of resources continues to grow, networked LED lights have become a crucial component in the modern energy retrofit. Energy efficiency investments could total $959 billion from 2014 to 2023, according to forecasts by Navigant Research. One thing is for sure: when it comes to effective ways to save energy on your lighting bill, LED-based lighting systems are impossible to beat. To start with, LEDs are incredibly efficient. Thomas Edison’s incandescent lightbulb, which brought electric light to the 20th century, produces just 16 lumens per watt. In comparison, most commercially available LEDs produce anywhere from 60 to 100 lumens per watt. But the efficiency of LED technology doesn’t end at the diode; its ultimate energy-saving superiority lies in its advanced control capabilities. Using LED-based automated systems, lights can be programmed to turn on and off automatically when people enter a room. Further, dimming and other advanced features can be controlled externally via smartphones or software connected to the internet. This networked management is possible because LEDs can be switched off and on digitally, and can easily be finely adjusted for both brightness and color temperature. Highly advanced LED-based lights can even be tuned to correspond to natural sunlight entering the room in a method of lighting known as daylight harvesting. Advanced daylight harvesting uses sunlight entering a room from windows and skylights and adjusts the LED lighting system to automatically add the necessary light to meet the room’s predetermined brightness level. Changing to LED lighting...

Worldwide attention was recently centered upon LED technology when the Nobel Prize committee announced that three scientists were awarded the 2014 Nobel Prize in Physics for inventing the blue LED. While many people may have read the news and thought, “maybe it’s time to complete my energy efficient lighting retrofit,” less well-known are the benefits of LED lighting in developing countries. LEDs, combined with solar panels, have been a called a “transformative technology” for more than a billion people who live without a reliable source of electricity. Today, 5 percent of Africans without access to electricity, around 28.5 million people, are using renewable energy-powered LED lights to break through the dark night. That’s in addition to a growing market in South Asia as well. According to Russell Sturm from a private sector investment arm of the World Bank International Finance Corp, worldwide sales of solar-powered LEDs have been growing at a rate of 150% annually for several years. In the past six months alone, 2.1 million LED-solar products have been sold to people around the world who are unconnected to an electrical grid. The majority of the 1.3 billion people who are living without electricity rely on kerosene, wood and candles to produce light and home energy. The economic and environmental costs of these light-generating methods have been pointed to as major stumbling block to productivity and economic growth for the world’s poorest people. Kerosene in particular has been called out due to the fact that it’s relatively expensive and increases risk for fire and health damage. People around the world without electricity spend around $38 billion a year on kerosene. Recognizing the opportunity to disrupt the market, social entrepreneurs have taken to LED technology and are selling it to the world’s poorest people, allowing them to leapfrog...

By tapping into the sun’s immense energy, “transformative” LED technology is providing clean, efficient lighting for millions of people around the world. Solar LED lights represent not only a dream scenario for the environmentally conscious, but also a chance to provide light in developing countries where access to electrical grids is scarce. The LED industry has come a long way in the past decade. To illustrate this process, the 2014 Nobel Prize in Physics was awarded to Isamu Akasaki, Hiroshi Amano, and Shuji Nakamura for inventing the blue LED in the early 1990s, which ultimately allowed for the creation of white LED light. “The LED lamp holds great promise for increasing the quality of life for over 1.5 billion people around the world who lack access to electricity grids,” the Royal Swedish Academy of Sciences noted in their Nobel Prize press release. “Incandescent light bulbs lit the 20th century; the 21st century will be lit by LED lamps.” One of the great opportunities provided by LEDs is the harmonious relationship they hold with clean, renewable solar energy. Photovoltaic panels create solar energy by converting the sun’s rays into direct current (DC) electricity. This DC current, in contrast to the alternating current (AC) electricity of the conventional grid, is the same form of electricity used by LED lighting. In fact, photovoltaics are also composed of diodes that in many ways are the inverse technology of LEDs. Most of the time, the electricity collected by solar photovoltaics is not used at the exact moment the sun is shining. This necessitates battery storage to hold this collected energy for later use. Due to their compact size, astounding efficiency, and advanced programability, LEDs are clearly the most effective type of light to draw power from these expensive batteries. During the past decade, the...