Understanding Kelvin and LED Light Color Temperatures
Customers often ask about color temperature, what is it and what does it mean to them. In order to help explain, we created this page as a quick reference for all your questions.
A: light color is the color of the light itself. Some light appears white or cool in color while others appear warm or brownish in color. Other specialty lights can be blue , red or green, Lights can be engineered to replicate any color. Choosing the correct one, which is the one you prefer, is important to getting a space to feel right.
A: Kelvin (K) is a unit of measure for temperature, thermodynamic temperature to be exact, name after the physicist William Thompson, 1st Baron Kelvin. 0 Kelvin is also known as Absolute Zero and effectively the lowest possible temperature. The magnitude of a degree in Kelvin is the same as a degree in Celsius, with 0 Kelvin equal to -273.15 Celsius. To convert Kelvin to Celsius, simple take the Kelvin temperature and subtract 273.15 for the corresponding Celsius temperature, i.e. 300 Kelvin is equal to 26.85 Celsius. Kelvin temperature when referring to light is based on the the color emitted by a black body radiator based on the characteristic of it's temperature. The simple thing to remember is higher color temperatures head into the blue end of the color spectrum and lower into the red end of the spectrum. See the chart below for a visual representation
A: 3000K is a warm white color light. Based on the Kelvin scale it has a distinct brownish tint often called warm white.
A: 4000K is a natural white color light. Based on the Kelvin scale it has a slight tint of yellow to the color. This makes it a popular neutral color, especially in offices and home areas that are highly used.
A: 5000K is a pure white color light. Based on the Kelvin scale it has no other colors in it, just white.
A: This is the getting to Kelvin in reverse. They have to build the LEDs based on CCT (color correlated temperature) to get to Kelvin. If ordering LED diodes you would do it by CCT, when buying light fixtures you do it by Kelvin.
A: Warm lights are colors that head toward the red end of the spectrum, usually referring to lights below 4000K and have a yellow to red tint to them. Cool colors are typically lights above 4000K and have a blueish tint to them. 4000K is often referred to as natural white since it is right in between.
R9 vs R15 vs CRI and What Does it All Mean
What is the difference between Kelvin and CRI?
A: The CRI or R9 is very different than Kelvin. Kelvin is the temperature or color of the light itself, but CRI or R9 will tell us how well that light will reproduce colors when using it. They are independent metrics and are not correlated in anyway.
So you can have a 2700K light that produces blue colors very well, even though its a warm colored light, or a 4000K that does red well. These move independently of each other and are based only on the light source itself. There are some ways to cheat colors with any light, but LED especially and so just because a light is 5000K or pure white, does not tell us whether it will reproduce colors well or not. You have to look at each separately.
A: CRI (color Rendering index) and R9 (average of R1-R9) reflect how well a light will reproduce colors. Just because a light is white does not mean that colors will show true underneath it. Incandescent and halogen do a good job of color rendering (CRI 95+), where HID sources typically are low color rendering (sub 50 CRI)
CRI is based on the R1 to R8 colors only, also known as the pastel colors. The higher the CRI the better those colors show. CRI is a 1960 standard, but in reality there are 15 color bands, these are referred to as R15. Since R10-R15 are generally not an improvement in color reproduction, those are skipped. ( For reference; solid saturated colors are R9-R12 and earth solids are R13 to R14) The big one, however, is R9 because that is red! R9 is one better than CRI because it adds the all important Red spectrum. Thus colors with red in them will show much better in a high R9 score.
Here is how CRI, R9 and R15 are calculated. You can see that CRI uses a limited, albeit critical part of the scale. R9, however adds that important Red color which is why its becoming a more preferred metric in lighting. For designers and users anyway, less so for manufacturers as we'll get to below.
What does the R mean in R9? Its based on R0 (CRI or R1-R8 is Ra) which is the mathematical representation of the colors below. TCS means Test Color Samples based on a 1995 standard
TCS01 7,5 R 6/4 Light grayish red
TCS02 5 Y 6/4 Dark grayish yellow
TCS03 5 GY 6/8 Strong yellow green
TCS04 2,5 G 6/6 Moderate yellowish green
TCS05 10 BG 6/4 Light bluish green
TCS06 5 PB 6/8 Light blue
TCS07 2,5 P 6/8 Light violet
TCS08 10 P 6/8 Light reddish purple
TCS09 4,5 R 4/13 Strong red
TCS10 5 Y 8/10 Strong yellow
TCS11 4,5 G 5/8 Strong green
TCS12 3 PB 3/11 Strong blue
TCS13 5 YR 8/4 Light yellowish pink
TCS14 5 GY 4/4 Moderate olive green (leaf)
How is CRI Calculated?
A: CRI (color rendering Index) is calculated as a average of R1-R8, known as the pastel color group.
How is R9 Calculated?
A: R9 is calculated as a average of R1-R9, which is the pastel color group up to red.
Whether its CRI., R9 or R15 the numbers are an average. So you have to do all well to score very high. Generally incandescent is the benchmark or reference light (black body radiator in the lab, but that's a much longer article) but really the 100 score on an R15 measurement would be perfect. The perfection is also known as sunlight.
Here is an example where the CRI would be high, but the low R9 does not tell the whole story.
Now most lighting spectrum charts will generate all the data. In this chart we see the light is about 4100 kelvin and 93 CRI, The R9 drops to 75, which is actually excellent because this is a grow light. Grow lights require a full spectrum, known as PAR for best results. Most R9 in general LED is closer to 40-50. To give some perspective, standards such as Title 24 in California, Well building standards and the GSA (government services agency) are requiring only CRI 80+ and R9 of 50+. Shows that LEDs in general have some work to do to get to R9 standards above 70+, and also why the R9 metric is not listed on many lights yet.
Choosing the Right Kelvin Color
A: Color temperature is mostly a matter of preference. In general, most warehouse lighting and outdoor lighting is 5000K, often called bright white as it's a close representation of sunlight. Lighting we often see in residential use is more relaxed settings are usually 3000K-4000K. Business office lighting is usually around 4000K. Retail lighting is usually 4000K-5700K and more than often on the cooler side as the cooler color temperatures typically have a slight advantage in lumen output over a warmer color in the exact same wattage. For retail sales, bright is good to show of the products being sold. Again, these are just common uses, some people do prefer to have a 5700K in their home and others may prefer 3000K for LED wall packs on the side of their building. One thing we will mention is that the American Medical Association recommends staying away from light above 5700K as it can be detrimental to human circadian rhythm and affect sleep patterns. Research in this field is still ongoing and there is a lot of conflicting information out there. Some people claim to get headaches from cooler color temperatures, others from warmer color temperatures. Everybody is different so it really comes down to personal preference.
Some municipalities have strict requirements on what color temperatures can be used for certain applications. If you are doing lighting where there is requirements of a certain color temperature, then you will know the options available to you. Otherwise, go with what you are comfortable with or ask for advice from the experts.
A: Get a sample. Buy 1 light so you can hook it up to power and see it in action. If you decide you want to change colors, you'll only have to return 1 light instead of 20. Once you figure out what you are happy with you can buy the full quantity
I need a lot of lights but I still don't know what color I want to use.
Get a sample. Buy 1 light so you can hook it up to power and see it in action. If you decide you want to change colors, you'll only have to return 1 light instead of 20. Once you figure out what you are happy with you can buy the full quantity.
I just don't get it, what color should I choose?
Give us a call and speak with one of our lighting experts to help go over your application and we can help guide you to the best option.
Example of a warm colored light. Note the yellow or brownish tint to the color.
Here is a 5000K white light. Note that the 5000K appears true white.
Here is a 5000K tester vs the 4000K. While some consider the 4000K "dirtier" it is easier on the eyes, especially if you working under it for long periods.
About the Author: Dara Greaney is founder and CEO of LED Light Expert with deep expertise in LED fixtures and Light design. LinkedIn, Wikipedia or Twitter. Editing by David Peguero.
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