How much would more would you pay for LED?
LED grow lights are fast becoming the optimal choice for growers who want to avoid heat issues, or surges in power consumption. Although many people see the benefits over the costs, others still find it hard to justify the higher costs of LEDs. At Advanced LED we work hard every day to build lights that offer the lowest cost per watt consumed to give our customers the highest value and “bang for your buck” LED grow lights than any other.
Take this month’s opinion poll to give us a clear picture of where you want us to focus our energy and what it will take to win your business. It’s only 1 question!
How to Get the Best Value in LED Grow Lights – $ Per Watt Measurement – electric lighting agency
LED grow lights sold today are all built with similar LEDs, heat sinks and power supplies but the amount of money each company asks per watt the light uses is vastly different. Every LED grow light has two different outputs, heat and light. The amount of heat output and the amount of light output are very important and should be considered. You want to get the most light per watt of energy actually used (see below) and the least heat.
To determine how much heat a light puts out ask for the maximum operating temperature of the lights housing output point. This temperature should not be over 105 degree F. If it is over this temperature or the company refuses to give this information then you are probably going to have more heat per watt than you want. The other thing to consider is actual wattage consumed. The name of the light is means nothing unless you can confirm the operating wattage of the light. For example, a 200w Diamond Series LED consumes about 190w of power and costs $545. If you take $545 and divide by 190w ($545/190) you get an average of $2.87 per watt of actual power used. Don’t be fooled by companies who would lead you to think you are getting a great $/watt if the name says 450w but the light actually only uses 250w. Make sure you always divide the price by the actual wattage of the light. Example: Total Price/Actual Wattage = Price Per Actual Watt = Value
Make sure you get the best value or what many would call “Bang for your buck”. If you follow this rule among others to choose your light you can be sure you will not pay double for something you think is cheap or of great value. You can get the best LED grow lights on the planet (the Diamond Series LEDs) for less than $3/watt average and this is a true value when you consider the extended 3 year warranty and 90 day money back guarantee. Happy growing!
Maximize Growth with LED Lights – electric lighting agency
LED lights, or “light-emitting diodes,” were first developed in the 1960s and have become the preferred lighting for indoor gardening. New technologies have made LED grow lights the most powerful and cost-effective option for supporting indoor plant growth. Consider the following points:
- Gardeners can expect to spend approximately 50 to 70 percent less on electricity bills once LED grow lights are in use.
- LED lights are highly efficient. With other indoor lighting options, nearly two-thirds of the light produced is unusable for photosynthesis. The best LED lights boast efficiencies of 90% and higher.
- LED lights eliminate the need for ballasts, reflectors, fans and expensive heat removal systems.
- On average, LED lights have lifespan of more than 50,000 hours. Other grow lights need to be replaced ten to twenty times more often.
To reap the benefits of LED lamps, however, gardeners must keep three variables in mind: the distance between their LEDs and plants, the durations of light and dark cycles, and fertilization.
The Proximity of LED Growing Lights & Plants
LED lights are prized in part for emitting virtually no heat. This helps gardeners avoid accidentally drying their plants and evaporating valuable nutrients too quickly. LED lights should be placed approximately one foot above plants, which is closer than the distance recommended for traditional fluorescent bulbs and HID lights. Your LED grow light vendor can help determine the best light placement for your particular indoor crops and LED wattage.
Controlling the Cycles of Light and Darkness
Different plant species require different cycles of lighting. For example, many indoor tomato gardeners leave LED lights on for 18 hours and then let plants “sleep” for six hours. For some plant species, gardeners use one light cycle length during the plants’ initial growth and another during the flowering stage. Be sure to research the best light cycle options for your particular indoor garden. In many cases you can strategically use LED grow lights to yield a larger crop than you’d get outdoors with natural light cycles.
Fertilizing an Indoor LED Light Garden
LED lights help gardeners make the most of their investments in plant nutrients. Compared with incandescent and fluorescent lamps, LED growing lights evaporate nutrients at a slower rate. Approximately half the traditional amount of fertilizer is required in an LED light garden.
Of course, not all LED grow lights are created equally. Be sure to read a reliable LED grow light review for each product that interests you. Some popular products include Extreme Flower LED lights, Diamond Series LED lights and the All Blue Extreme Veg LED.
LED Grow Lights Make Sense for a Hydroponics Garden – electric lighting agency
Hydroponic gardening uses a nutrient solution to grow plants instead of soil. Plants are grown with their root systems immersed in either a nutrient-rich mineral solution or an inert growing medium such as sterilized gravel, clay pellets, prelate or rock wool. The advantages of hydroponic horticulture include:
– Stable and higher yields
– Lower water and nutrient costs
– Improved pest and disease control
– Better harvests
– The elimination of fertilizer and pesticide runoff
Why Choose Hydroponics?
Indoor gardeners increasingly choose hydroponics because the growing techniques are easy to master and conducive to the do-it-yourself ingenuity of home improvement enthusiasts. Hydroponic gardening also has the distinct advantage of producing very high yields in a very small space, making hydroponics an attractive solution for the indoor home gardener.
When constructing a home hydroponics garden, choosing the correct grow light system improves the peak efficiencies a hydroponic garden can yield. Indoor horticulture requires a high-intensity light source that reproduces, as closely as possible, the spectral qualities of sunlight. Regular consumer indoor lighting lacks the intensity and spectrum width that plants need to grow and thrive. Plants evolve under the full spectrum of natural sunlight and use different parts of the full spectrum during various stages of their life cycles. Seedlings and younger plantings thrive best under the short-wavelength of the blue part of the full spectrum. As plants mature they require the longer wavelengths of the orange and red parts of the spectrum to induce flowering and fruiting.
To grow properly, traditional indoor horticulture relies upon energy-inefficient, high intensity discharge lamp systems to provide the necessary light intensity and spectral bandwidth. High pressure sodium and metal halide lamps create the proper light intensity and spectrum output by energizing vaporized toxic metals through the introduction of a high-voltage electrical current inside the sealed lamp. These lamps require heavy ballasts to regulate electrical flow and bulky reflectors to direct the light produced and usually require skilled tradesmen to mount and wire them correctly. Traditional HID systems also produce vast amounts of heat that must be drawn off using expensive and sophisticated ventilation systems.
Recent advances in LED lighting technology provide the home hydroponics gardener with an attractive and green alternative to traditional HID grow light systems. Modern LED grow lights use a fraction of the electricity compared to traditional HID systems, and also produce light of the proper intensity and spectral bandwidth for optimal plant growth. They are lightweight and easy to mount and do not require any special wiring. High-end LED systems can even be adjusted for spectral output to coincide with plant life cycles. As an added bonus, LED grow lights do not produce massive amounts of waste heat, providing an added cost benefit by eliminating the need for fans and venting systems.