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What is CRI? Everything You Need To Know

What is the best CRI for LED lights?

How does CRI affect lighting?

Is CRI important for grow lights?

What is CRI outdoor lighting?

What is the CRI of sunlight?

What is the best CRI light source?

What is a good CRI for LEDs?

We will try to tackle these and other questions in this article.


What Is CRI?

The colour of an object looks very different under lights with varying CRI ratings. And a high CRI fixture gives a more realistic visual by closely mimicking the sunlight. In contrast, low CRI results in faded Colour that’s far apart from the actual Colour of an object.

Therefore, to get an accurate visual of any object, you must consider the light’s CRI values.

Colour Rendering Index or CRI compares the Colour accuracy of an object under artificial lighting to that of natural sunlight. If the object under the light source looks similar to what you see in daylight, it has a high CRI. In contrast, if there’s a visible difference in Colour appearance, this means the light source is of low CRI. This way, by considering CRI values, you can identify the quality of light in terms of providing Colour accuracy.


Basics Of CRI: How It Works?

a. Scale & Range Of CRI

The CRI is measured on a 0 to 100 scale. Higher CRI means better Colour accuracy. Lighting with CRI below 80 is considered poor. In contrast, fixtures with CRI>90 are considered excellent.

CRI

Quality 

0

Low

10


20


30


40


50


60

Acceptable 

70


80

Good 

90

Excellent 

100


b. Measures Quality of Artificial White Light Sources

CRI measures the Colour accuracy of artificial white lights like LED and fluorescent light to natural daylight.  Thus, by checking the CRI value, you can get an idea of the fixture’s ability to mimic sunlight.

c. CRI Measures and Compares the Reflected Colour of an Object Under Artificial Lighting

Sunlight is white in Colour, but it is a combination of all the Colours of the visible light spectrum. So, when the suns rays fall on an object, the Colour of that object reflects to your eyes. The rest of the Colours are being absorbed by the object. That is how you can see an object.

When you are using an LED light or other bulbs, it tends to emit a light spectrum similar to sunlight. The closer the emitted light spectrum matches the sunlight, the more accurate colour perception the light provides.

For example, take two apples and place one under sunlight (5000 CCT) and another under a 5000 CCT LED light. Though both have the same CCT, the apple in natural light looks more red than the other. This happens because LEDs don’t emit the same light spectrum as sunlight. Thus, the Colour under this light appears different due to having low CRI.

d. You Can’t Determine CRI Without Comparing the Colour Output

As you have seen above, the same light Colour can have varying light spectrums. Thus, by observing one light Colour, you can’t find the light sources CRI. Instead, you need to direct the light to varying objects and check the difference between them and sunlight.

Spectral Power Distribution

If you look at the spectral distribution graph, you can see how light wavelength matters for Colour visibility. The wavelength of the visible part of the electromagnetic spectrum ranges from 400 to 750 nanometres. This is what we call the full visible spectrum. So, a light source with a full visible spectrum will have CRI 100. That is, you will get accurate Colour visibility.

Below, you will see a typical spectral power distribution graph for daylight.

Notice the strong presence (high relative power) of ALL wavelengths (or the “full-Colour spectrum”). Daylight provides the highest level of Colour rendering across the spectrum.

Compare the daylight spectral power distribution with that of an LED light.

The graph we used here is of a warm tone, having a CCT of 2700K and a CRI of 82. Though its CCT is far lower than that of daylight (5000K), its Colour rendering ability is not bad. However, it’s worse when you compare it to natural daylight.

The most obvious difference is the generally lower level of relative power compared to daylight – except for a few spikes. Again, all wavelengths (the full spectrum) are present, but only certain wavelengths (the spikes) are strongly present. These spikes indicate which parts of the Colour spectrum will be emphasized in the rendering of Colour for objects illuminated by the light source.

Importance of CRI

1. Accurate Colour Representation

How an object looks in artificial lighting depends heavily on CRI. This is why high CRI lighting is essential for applications where Colour accuracy is mandatory. For example- the lighting in art galleries, photography, TV, etc., should have a higher Colour rendering index. If the light used is of poor CRI, you won’t get the expected outcome.

For instance, painting under low CRI lighting often makes painters confused in choosing the right colours. Once his painting is set outdoors in natural lighting, it will look quite different to what he actually expected. This is why high CRI is mandatory to ensure Colour accuracy.

2. Visual Comfort and Productivity

Proper Colour accuracy provides you with a comfortable and productive environment. With higher CRI, the employees and workers will have a far more pleasant environment. This reduces stress, headaches, and eye strain and improves the overall mood of the employee. Thus, employees can work with ease and increase their productivity.

3. Industrial Applications

In industrial-level applications like textile and printing, maintaining colour accuracy is mandatory. If there is any difference in Colour, you won’t get the expected outcome for the final product. That is why CRI is also an essential consideration at an industrial level.

4. Retail Stores

If you have low CRI lighting in your retail store, the customer may purchase an orange dress but find it red once she gets out of the store. This will badly hamper your brand reputation. That is why you must install high CRI lighting in your shop.

5. Medical and Scientific Applications

CRI provides you with accurate Colour perception when reading a diagnosis reports, detecting skin tones, and identifying substances correctly.


How To Measure CRI?


1- Measuring CRI Of Daylight

You need to follow the industry-standard method of CIE to measure the CRI of any light source. Here, a black body radiator with a perfect CRI score of 100 is taken as a reference sample. You need to compare the test source’s colour rendering with this sample. To calculate the general CRI rating, you need to select 15 primary reference samples considering the Colour temperature of the tested light.

CIE (1999) numerically organized these reference samples in The Colour Checker chart. This starts with TCS01, referred to as ‘Light Greyish Red,’ and ends with TCS15, referred to as ‘Asian skin.’ The closer the tested source matches the reference sample, the higher the CRI rating it will have.

It is necessary to compare the reflected Colours and formulaically determine each Colour swatch’s “R” score.

The R-value for a particular Colour indicates the ability of a light source to faithfully render that particular Colour. Therefore,  the CRI formula takes an average of the R values to characterize the overall Colour rendering capability of a light source.

  • Ra is the average value of R1 through R8.

  • AvgR is the average value of R1 through R15.

  • Special value: R9

 In general, in CRI calculation, Ra is the average of R1–R8. Here, the values from R9 to R15 are not counted. However, for applications requiring a high Colour rendering index, R9 is a crucial consideration. It determines the light source’s ability to reflect the red Colour accurately. That is, it rates the tested light source based on its ability to go closer to TCS 09 of the ColourChecker chart.

Therefore, considering R9 is very important in getting accurate Colour perception in applications where red is a crucial Colour. For instance, the Colour red is important for applications like film, medicine, and art lighting.

However, in some cases, the colour red remains in a hidden form, such as our skin. Though our skin looks whitish or yellowish, the tone of our skin is impacted by the red blood underneath. So, if the R9 value is not good enough, the skin tone under this light will be pale or even greenish by eye, or by cameras.


2- Measuring CRI Of Non-Day Light

For simplicity, we’ve assumed a 5000K Colour temperature for our examples above and compared it to a 5000K natural daylight spectrum for CRI calculations.

But what if we have a 3000K LED lamp and want to measure its CRI?

The CRI standard dictates that Colour temperatures of 5000K and greater use a daylight spectrum, but for Colour temperatures of less than 5000K, use the Planckian radiation spectrum. Planckian radiation is essentially any light source that creates light by generating heat. This includes incandescent and halogen light sources.

So while measuring the CRI of a 3000K LED lamp, you need to judge it against a “natural” light source having the same spectrum as a 3000K halogen spotlight.

(That’s right – despite the awful energy efficiency of halogen and incandescent bulbs, they produce a full, natural and excellent light spectrum).


3- Limitations In Measuring CRI

Limited Sample Colours

CRI is measured based on only 8 sample Colours; not all Colours of the real world are included in it. So, Colour accuracy is not ensured.

Equal Weighting

The Colours used as CRI samples have the same weight. So, in some applications, you can differentiate some Colours.

Colour Temperature Dependency

CRI is highly dependent on Colour temperature. Its value drops as the CCT goes away from the natural daylight CCT (5000K to 5500K).

Lack Of Saturation Information

CRI doesn’t measure the saturation of light Colour. So, this matrix is not applicable where you need to measure saturation and Colour vibrancy.


Key Factors Influencing the CRI Scores

Light Source

The light source has a greater influence on CRI. The value of CRI varies for different lighting technologies. The chart below will give you a clear idea of how the type of light source impacts the CRI value:



CRI For Different Light Technology 

Type of Light

CCT

CRI Ratings 

LEDs

2700–5000K 

80 to 100

Incandescent

3200K

100

Clear Mercury Vapor 

6410K

17

“White” SON

2700K

95

Tri-phospher Warm-White Fluorescents 

2940K

73

High-Pressure Sodium Lighting 

4080K

89

Quartz Metal Halide

4200K

85

High Pressure Sodium Lighting 

2100K

25

Clear Mercury-Vapor Lamps

6410K

17

Low-Pressure Sodium Lighting

1800K

-44

Material of the Object

The object’s ability to absorb, reflect, and transmit light affects the CRI values. For this, CRI can vary depending on the object’s material, texture, and reflective properties. Therefore, to get the desired CRI rating, you must understand the interaction between materials and light.

Distance and Angle

The Colour appearance of an object can vary with the distance and angle at which the light falls on it. The light’s intensity decreases as its distance from the object increases. Again, light can also create shading on the object for a certain angular direction. All these considerations impact Colour perception of the object. Therefore, you must consider the placement and orientation of lighting fixtures to achieve optimal CRI.

Specific Colour & Quality of Illuminated Objects

CRI is based on 15 sample Colours. So, some objects whose Colour doesn’t fall under this specific sample Colour won’t show an accurate CRI rating.

Lighting Environment

The background and surrounding Colour also impact the Colour perception of objects. This impacts CRI rating. For example – an object will appear different for a high-contrast and low-contrast background.

Impact of CRI on Human Perception

Humans heavily depend on Colour perception in day-to-day life. For instance, you can identify ripe fruits via their Colour. In this case, high CRI helps the eyes to get the correct perception of the Colour.

Again, as humans age, their eyesight and Colour-distinguishing capability reduce. So, a high CRI light helps elderly people with poor eyesight to identify Colours.

How To Choose the Right CRI For Different Applications?: A Guide

a. Location & Purpose of Lighting

The requirement of CRI varies for different applications. High-CRI-rated bulbs are usually more expensive than low-rated ones. So why waste your money on high CRI where it isn’t mandatory?

The below chart will help you find the right CRI ratings for your application:

Location

Recommended CRI

Description

Living and Bedrooms

80 or above

This will bring accurate colour perception of clothing, environment, and decoration and complement the warm and cozy ambiance of the bedroom. 

Bathrooms and Dressing Rooms

90 or above 

Higher CRI will give the correct colour perception that is essential for grooming, makeup and clothing selection. 

Kitchens

85 or above

This CRI rating ensures accurate colour representation of the food, vegetables, spices, and other ingredients to aid you in cooking. 

Home Offices or Study

85 or above 

It will reduce eye strain and provide clear visibility while studying. 

Art Studios or Craft Rooms

95 or above

This ensures the true colour of the artworks so they look the same in daylight. 

Retail Lighting

90 or above CRI

Higher CRI will ensure the accurate colour of products, helping the customer make purchasing decisions with confidence.

Photography and Videography

95 or above

For capturing the accurate colour of the object or person and the surrounding objects. 

Medical and Dental Facilities

90 or above CRI

Diagnose the condition of the patient, for example, color of eye, skin, blemishes, injuries, etc. 

Industrial and Manufacturing

80+ for general manufacturing  

For identifying errors and defects in the product and taking necessary steps to get the expected final output. 

90 or above for quality check 



b. Light Technology

The CRI ratings also depend on the lighting technology. Traditional bulbs like incandescent have CRI 100. So, using these bulbs, you will always get 100% Colour accuracy, but these are not energy efficient. However, LED lighting offers you a variety of CRI and is highly energy efficient. So, choose the type of lighting that best fits your needs.

c. Colour Temperature

The fixture with a Colour temperature closer to natural daylight gives a higher CRI. So, you will get better colour accuracy for CCT ranging from 5000K to 5500K. In contrast, lower CCT bulbs with warm tones or high CCT bulbs with cool tones give lower CRI compared to natural daylight. However, you can go for tuneable white lighting to adjust the Colour temperature and CRI to meet your needs.

d. Manufacturer Specifications

The manufacturer’s specification includes the information about the light’s CRI ratings. So, by going through the data sheet or specifications, you can pick the ideal one. However, you must also check the test reports and certifications to ensure correct CRI calculation.

e. Regulatory Standards For CRI

Different international lighting standards have specific CRI requirements. I’ve pointed out the most essential ones:

  • Energy Star

Energy Star is a U.S. government-backed seal mark to ensure the energy efficiency of the light fixtures. U.S. Department of Energy (DOE) and U.S. The Environmental Protection Agency (EPA) is in charge of this standard. To achieve an Energy Star marking, you must have the following CRI

Type Of Lightings 

Required CRI for Energy Star Standard

CFL Lights 

At least CRI 80 

Incandescent

CRI of 100

Linear Fluorescent Tubes

CRI around 75

LED Lights

CRI ≥ 80

  • European Union

The European Union (EU) regulates lighting standards for using and exporting lighting in Europe. The Ecodesign Directive of this organization sets the CRI values to ensure product quality. According to the EU, lights must have at least CRI ≥ 80.

  • International Commission on Illumination (CIE)

CIE is an internationally recognized organization dealing with different lighting aspects. It publishes different guidance for maintaining Colour quality and CRI ratings.

  • International Electrotechnical Commission (IEC)

It is an international standard that deals with electrical and electronic technologies. It includes the methods of calculating the CRI for different types of lighting technology. FRor instance:

  • IEC 60081 defines how to measure the CRI of fluorescent lighting

  • IEC 60901 is similar to IEC 60081, dealing with CRI of fluorescent lighting

  • IEC 62922 explains the methodology of measuring CRI in LED technology

f. Cost and Budget

Lightings with high CRI are more costly, so, you must find an appropriate CRI rating for your lighting that fits your budget. However, the price of the lights with the same CRI can vary from brand to brand.

Why Buy High CRI Lights?

High CRI means better colour accuracy. By buying lights with a high CRI >95, you will get a realistic Colour perception of the objects. It also offers the following benefits:

  • Realistic colour appearance

  • Reduces eye strain & offers visual comfort

  • Minimizes the risk of error caused due to wrong colour perception

  • Meets international lighting standards

  • Enhances the beauty and visual appeal of products

Drawbacks of Using Low CRI Lights

Poor Colour Accuracy

Due to using low CRI lights, you won’t get to see the actual colour of an object. It fades the colour and makes it look unnatural. This can greatly hamper retail businesses and industries like fashion apparel, textiles, etc., where colour accuracy is mandatory.

Strain and Discomfort

Harsh lighting with low CRI rating leads to eye strain and headache. Thus, you can’t focus on work. This way it can reduce your productivity and hamper the task.

Reduced Quality of Work

In low CRI lighting, the colour of an object looks very different from its actual colour. Therefore, using a low CRI light in applications like fashion apparel, textiles, etc., will mess up your task. For instance, while painting, a wrong colour mixture can effect the final output. This way, the quality of the work is affected by low CRI lights.

CRI Vs. Other Colour Quality Related Lighting Metrics

CRI VS CQS

Similar to CRI, the Colour Quality Scale (CQS) also measures the Colour rendering capabilities of light sources. However, CQS is a more recent metric that reduces the limitation of CRI. Where CRI focuses only on colour fidelity, CQS considers other aspects of colour rendering, including Colour saturation and Colour preference.

Again, in CRI, only 8 reference samples were used to evaluate light. Meanwhile, CQS uses 15 Colour-evaluating samples. Therefore, CQS gives a more in-depth view of the Colour rendering quality of light.

Aspect

Colour Rendering Index (CRI)

Colour Quality Scale (CQS)

Primary Focus

Colour Fidelity

Colour Quality

Color Accuracy

Measures colour accuracy

Considers colour accuracy but also saturation and preference.

No. of Colour Evaluating Samples 

8

15

Saturation

Not Considered

Considered

Colour Preference

Not Considered

Considered

Application Focus

General lighting scenarios

More specialized or aesthetic-focused lighting scenarios

CRI VS TM-30

Compared to 8 Colour evaluating samples of CRI, TM-30 uses 99 referral samples! Unlike CRI, it not only focuses on the Fidelity Index (Rf) but also includes the Gamut Index (Rg). Thus, using TM-30 as a Colour rendering matrix, you will get to know the shifts in saturation, too. This makes this matrix suitable for applications requiring even higher colour accuracy.

Criteria 

Colour Rendering Index (CRI)

TM-30

Primary Focus

Colour Fidelity

Colour Fidelity and Gamut

Colour Accuracy

Measures colour accuracy

Provides detailed colour fidelity metrics

No. of Colour Evaluating Samples 

8

99

Saturation

Not Considered

Considered and analyzed

Hue Change

Not Considered

Considered and analyzed

Information Depth

Single value representation

Multi-metric representation including fidelity index (Rf) and gamut index (Rg)

Application Focus

General lighting scenarios

Specialized or high-accuracy colour rendering scenarios

CRI Vs GAI

Gamut Area Index (GAI) compliments CRI by focusing on colour intensity and vibrancy. CRI is crucial for applications that need colour accuracy. On the other hand, GAI is considered for applications that require vibrancy and more saturation.

Criteria 

Colour Rendering Index (CRI)

Gamut Area Index (GAI) 

Primary Focus

Colour accuracy

Colour saturation or vibrancy

Saturation

Not Considered

Considered and analyzed

Hue Change

Not Considered

Considered and analyzed

Application Focus

Applications requiring accurate colour reproduction, such as art galleries, medical settings, and design work.

Settings requiring vibrant colours, like retail displays, horticulture, and entertainment lighting.

Full Spectrum Lighting and Sun-Like Natural Spectrum LED Technology

Full Spectrum Lighting has all wavelengths falling under the visible light spectrum. It thus mimics the sunlight and offers higher CRI ratings. However, Seoul Semiconductor has taken full spectrum lighting to the next level with its SunLike Natural Spectrum LED Technology. This technology was co-developed through a combination of Seoul Semiconductor’s optical semiconductor technology and Toshiba Materials’ TRI-R technology​​.

Lights designed with this technology mimic the sunlight very closely, offering accurate Colour accuracy just as you see in natural daylight. Thus, Sun-Like LEDs ensure a high Colour rendering index (CRI) of 98+.

Future Trends in Colour Rendering

1. Growing Popularity Of Advanced Metrics

CRI has some limitations that matrices like TM-30 & CQS easily cover. So, to evaluate colour rendering, these units will eventually be more popular than the CRI.

2. Human-Centric Lighting

Human-centric lighting is gaining popularity as it is designed to provide comfortable lighting. So, you will find a higher CRI rating in all types of human-centric light to ensure visual comfort.

3. Smart Lighting Solutions

Smart lights with advanced features facilitate adjustable CCT options. However, such customization options will soon come for CRI, too.

FAQs

What are common CRI values?

For indoor lighting, the general baseline is CRI 80. However, based on applications that require high colour accuracy, CRI>90 is a must.

Wrapping Up

To sum up, considering high CRI is essential to ensure proper Colour perception of your surroundings. Low CRI lights will not only affect the colour appearance but also cause discomfort and hamper work productivity. Therefore, you must consider your application needs and pick the right CRI following the above guidelines.

However, to ensure you are purchasing quality light with an honest CRI rating, Blue Moon LED is Australia’s most trusted solution. All our LED strip lights are of a high CRI, Ra>90 / Ra>95.

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