Bioluz LED 60 Watt Candelabra Bulbs Medium Base, Candelabra Bulbs, Dimmable Filament Clear 60 Watt LED Bulbs (Uses only 4.5 watts), E26 Base, C37 LED Filament Candle Bulbs, Pack of 6 Description
Size:6 Pack Â |Â Color:Warm White 2700K Bioluz LED introduces it’s most efficient LED ever! 60 Watts of equivalent light using only 4.5 Watts! We’re proud to introduce the latest in our FILAMENT LED Series – an elegant and aesthetically pleasing DIMMABLE candle bulb for your chandeliers, ceiling fans, and other fixtures in your home. The Bioluz LED Dimmable Filament Candle LED is glass all the way down to the screw base – providing 360 degrees of bright 3000K light which will match your existing E26 / C37 incandescent bulbs – in fact – we believe you’ll prefer them to your existing bulbs! Warm yet bright, but not harsh like other high Kelvin bulbs on the market. Bioluz LED offers beautifully styled lamps for your home and office. Warm and bright, Bioluz LED high performance lamps offer aesthetically pleasing designs combined with quality and energy efficiency. Add Bioluz LED energy efficient LED’s to your home or office while maintaining the cosmetic beauty, brightness and color you’ve come to love. What are Lumens and Kelvins? Lumens are a measurement of how much light is generated – or brightness – each lumen emits approximately the same amount of light as one candle. Kelvin represents the ‘color’ (which is based on the temperature) of the light. Bioluz LED’s are manufactured so that our 2700 Kelvin bulbs are nearly identical in color to incandescent bulbs. Our 3000K bulbs are designed to match halogen bulbs. We’ve found that bulbs which are 4-5000K generates a bluish tint on objects (like at a hospital or office building) and are not as comforting in a home. Many brands sell and market higher Kelvin (4-5000) bulbs with lower lumens to make them ‘appear’ brighter. Bioluz LED manufactures the correct color bulbs with exceptionally bright, energy efficient LED,s, so you get the color and brightness you’re accustomed to without the harsh effect of higher color temperatures.