90 likes | 130 Views
There’s an array of different LEDs that are available in the lighting market today. The diverse LED characteristics comprise of light color or radiation wavelength and light intensity among other features.<br><br>https://www.saving-light-bulbs.co.uk/blog/color-characteristics-of-leds/
E N D
Saving Light Bulbs - The Energy Saving LED Specialists Call us on 01420 520521 - Open 7 Days........... PRICES INCL. VAT Free Delivery on orders over £50. NEXT DAY delivery available for orders placed before 12:00 Home :: Blog SLB Blog LIGHT BULB GENERAL INFORMATION, TECHNOLOGIES COLOR CHARACTERISTICS OF LEDS 12TH MARCH 2018 DENNIS LEAVE A COMMENT
There’s an array of different LEDs that are available in the lighting market today. The diverse LED characteristics comprise of light color or radiation wavelength and light intensity among other features. These color characteristics are as a result of an assortment of factors during the manufacturing process. Factors such as semiconductor make-up, fabrication technology used, and encapsulation are also important in determining the LED color appearances. Understanding LED colors Color is a fundamental feature of light emitting diodes (LEDs). Initially, there were a limited number of colors available for these ?xtures. You could only ?nd red LEDs. However, as technology advanced, there have been signi?cant improvements in LED materials and colors. Color Characteristics of LEDs: Color Temperature One important aspect of color appearance is color temperature, which exempli?es how cool/bluish or how warm/yellowish technically white light appears. CCT Correlated Color Temperature (abbreviated as CCT), is actually a metric correlating the source of
light appearance to a pre-heated theoretic dark/black body appearance. As a black-hued body gets hotter, it becomes red, orange, white, and ultimately blue. The CCT value of a light source, provided in Kelvin (K), represents the temperature at which a hot black body closely matches the light source color under investigation. It symbolizes the color of emitted light and not that of illuminated objects. What is Color Rendering Index (CRI)? Metrics Color representation has numerous distinct forms, including reference based systems, gamut based systems, and systems which are built upon sophisticated color appearance models. CRI refers to a measure of ?delity (that’s how ‘true’ a certain light source is when related to a reference source), but it doesn’t address the issue of color appeal and discrimination. Chromaticity and LED Colors Chromaticity refers to an objective interpretation of the quality of color irrespective of its luminance. It consists of two distinct parameters, often described as colorfulness (s) and hue (h). For a speci?ed CCT, a light source with a positive Duv value has a chromaticity which falls above the locus of the blackbody (appearing slightly greenish), while a source featuring a negative Duv value has a chromaticity which falls below the locus the blackbody (appearing slightly pinkish). The In?uence of LED voltage drops
The LED voltage drop often lies between 2 and 4 volts. The actual voltage that occurs across the two terminals is highly dependent on the type of LED/materials used and in?uences the color of LED in question. As expected, the voltage curve of an LED broadly resembles that of a forward diode characteristic. But once the diode is switched on, the voltage becomes relatively ?at for various forward current levels. LED Characteristics: The Summary The following table gives a summarized insight concerning LED color characteristics. Wavelength Range In NM Color Of the LED Voltage(V) at 20MA The Type of Material Below 400 UV(Ultraviolent) 3.1 to 4.4 AIN, AlGaN, AlGalnP 400 to 450 Violet 2.8 to 4.0 GaP,AlGalnP 450 to 500 Blue 2.5 to 3.7 lnGaN 500 to 570 Green 1.9 to 4.0 GaP, AlGalnP 570 to 590 Yellow 2.1 to 2.2 GaAsP, AlGalnP 590 to 610 Orange or Amber 2.0 to 2.1 GaAsP, AlGalnP 610 to 760 Red 1.6 to 2.0 AlGaAs, GaAsP, AlGalnP Below 760 Infrared Below 1.9 GaAs, AlGaAs Besides LED color, the following are other major LED speci?cations: Light intensity value( denoted as Iv) Current vs. voltage speci?cation Reverse voltage Angle of view LED Speci?cations for Operational Life
LED’s light intensity doesn’t diminish with time. What this implies is that LEDs have a speci?c operational life. This speci?cation helps determine the application of different kinds of LEDs. LED speci?cations are determined by the following formulas. L known as lumen maintenance) = The time taken for a 70 percent illumination (this is also 70% L lumen maintenance) = The time taken for a 50 percent illumination (also known as 50% Note: According to LED standards, your LEDs shouldn’t exhibit any major shift in chromaticity. These ?gures’ rationale is that 70 percent lumen maintenance is equated to a 30 percent light output reduction. This’s an approximate threshold ?gure required to detect to gradual light output reductions. CHROMATICITY COLOR CHARACTERISTICS OF LEDS COLOR RENDERING INDEX (CRI)? LED CHARACTERISTICS LED COLORS LED SPECIFICATIONS LEDS PREVIOUS POST A Guide to LUX Levels NEXT POST Lighting Building Exteriors
LEAVE A REPLY Your email address will not be published. Required ?elds are marked * Name * Email * Website Comment You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong> POST COMMENT Search … RECENT POSTS An update on the Light Bulb Ban An Introduction to DMX Lighting Control
Why Light Output Should Be Measured In Lumens & Not Watts IP Ratings Explained Architectural Lighting for Buildings RECENT COMMENTS saving on The 2D Compact and 2 Pin 4 Pin technical information saving on How to calculate the LUX level in a Room saving on LED Ceiling Lights: They Will Rede?ne Your Living Room saving on The 2D Compact and 2 Pin 4 Pin technical information saving on How to calculate the LUX level in a Room ARCHIVES July 2018 May 2018 April 2018 March 2018 February 2018 August 2017 July 2017 June 2017 May 2017 February 2017 January 2017 December 2016 June 2016 May 2016 April 2016 March 2016 February 2016
January 2016 November 2015 September 2015 August 2015 July 2015 June 2015 March 2015 October 2014 September 2014 June 2014 April 2014 December 2012 September 2012 July 2012 April 2012 February 2012 January 2012 December 2011 October 2011 September 2011 August 2011 July 2011 May 2011 February 2011 January 2011 October 2010 September 2010 August 2010 July 2010
CATEGORIES Light Bulb General Information Lighting Design Technologies The Environment Uncategorised Uncategorized META Log in Entries RSS Comments RSS WordPress.org Proudly powered by WordPress :: Traditional Lighting :: Eco Schools :: The Environment :: Lighting Design Desktop Version Copyright © 2018 Saving Light Bulbs. Powered by Towers IT Professional Services Ltd Your IP Address is: 169.54.6.221