LED and lifetime

One of the benefits of the LED is its long lifetime. Because it has no movable parts or filaments that may break, LED’s can have long lifetimes.

The light output from all light sources, LED, halogen, metal halide and fluorescent decreases over time. The amount of light from the light source at a specific time in the future is referred to as the lamp lumen maintenance factor, or LLMF. The lifetime of a LED module is defined as the time it takes until its light output, or lumen maintenance, reaches 70% of the initial output. This is also called L70. In other words, the module does not die instantly as many conventional light sources do, it slowly dims down. Lighting planners take this effect into account when they dimension the lighting installation. As they want the light level to reach a minimum lux value at the end of the lifetime, they over-dimension the luminaire installation, often by using more luminaires. Therefore, the lux value in the beginning of the operating life of the lighting installation is higher than what it is at the end. The luminaire industry has standardised LED lifetime to L70 = minimum 50000 hours, which corresponds to an LLMF of 0,7 as long as the lifetime of the lighting installation is set to the same amount of hours.

The actual lifetime of a LED luminaire is important for cost savings

led_temp1


For some of our products, the lumen degradation is better than the industry standard. After 50,000 hours of life, not only 70% of the life remains, but 80% or even more. The LLMF is then raised to 0,8 or above and the lighting designer does not need to over-dimension the lighting installation as much. With this upgrade, up to 25% of the luminaires may be left out, depending on the ceiling type. That means lower installation costs and a lower energy bill. At the same time, the lux levels are always meeting the lighting norm requirements. 

 

New standards on LED lifetime
New international standards on how lifetime should be declared on LED luminaires have now been published. The standards are IEC 62717 LED-modules for general lighting – Performance requirements and IEC 62722-2-1 Particular requirements for LED luminaires.

What do the standards say?
IEC 62722 states both test method and minimum required time for testing LED lifetimes. The minimum test time is 6,000 hours where the luminous flux is recorded every 1,000 hours. These values are extrapolated using a method stated in IES TM21.

What’s new?
The lifetime for the LED module and the driver should be declared separately. If the lifetime for the driver is shorter than that of the module, a driver replacement may be necessary before the luminaire’s lifecycle is completed. This means that there cannot be a single figure declaring the total luminaire lifetime. 
A helpful metric for "median useful life" has been introduced in IEC 62717. This is the time elapsed until 50% of the LED luminaires in use reaches the stated light output, for example L80.

How Glamox lists the Lifetime for LED luminaires
The lifetime of a LED module inside a luminaire is related to the luminous flux depreciation at a given ambient temperature. L70, L80 or L90 indicates how many lumens (in percentage related to the initial lumens) that remains after end-of-life. The L-value may be explained B- and C-values. 

For all luminaires, Glamox Limited Lists:
  • The median useful life (IEC 62717) Lx B50 at  Ta.25 degrees. Lx may vary from 70 to 90 
    depending on the product and the corresponding lifetime goes up to 100,000 hours.1 
  • Lamp lumen maintenance factor (LLMF) 50,000h,  Lx B50 Ta. 25 degrees. This is a factor from 0 to 1.0. 
 

For industrial luminaires, we also list:

  • The median useful life (IEC 62717) Lx B50 at maximum Ta Lx may vary from 70 to 90 depending on the product and the corresponding lifetime goes up to 100,000 hours.

[1]For products designed for enclosed installation, the lifetime will be lower than that for open installations. For example, a downlight may have a lifetime of L70 - 100 000 hours at 25 deg and 75 000 hours at 35 deg (max Ta). An enclosed installation would call for a lifetime of
75,000 hours.


B value
The failure fraction for By expresses only the gradual light output degradation as a percentage y of a number of LED modules of the same type that at their rated life designates the percentage (fraction) of failures. The value B50 indicates that the declared L-value will be achieved by minimum 50% of the LED modules and that the remaining 50% may have a lower lumen value. The value B10 means that minimum 90% of the LED modules will meet the declared L-value and only 10% will have a lower flux level. A B10 value is therefore more conservative than B50. In practical terms it means that B10 is reached at an earlier stage in the lifetime on a set of LED modules compared to B50.  Glamox Luxo uses B10 & B50 as the standard value when stating LED lifetimes.

C value
The failure fraction for Cy expresses only the abrupt light output degradation as a percentage y of a number of LED modules of the same type that at their rated life designates the percentage (fraction) of failures. A catastrophic failure is when the LED module does not emit any light. Glamox Luxo does not publish C values for our LED products.

 


led_temp2
The figure shows the two factors that affect LED luminaire lifetime – gradual degradation of the lumen output or abrupt failure of the luminaire. Source: ZVEI.




F value
The F value depicts the combined failure fraction. This is the combination of both gradual (B) and total failures (C).

Driver lifetime
The LED driver can be compared to other electronic components such as HF-ballasts for T5 lamps. The expected lifetime depends on the design itself, the used components and the temperature of these components. Glamox Luxo only uses drivers from quality suppliers. The drivers are marked with a reference temperature point, Tc where the stated temperature never should be exceeded. Often the maximum ambient temperature (Ta) of the luminaire relates to the maximum value on the Tc-point. At this Ta we declare a lifetime of minimum 50.000h with an estimated failure rate of 10%.

Why is the L-value so important?
The L-value is directly related to the maintenance factor (MF) used when making a light calculation. MF includes the following parameters: 

MF=LLMF x LSF x LMF x RSMF

  • LLMF = Lamp Lumen Maintenance Factor
  • LSF = Lamp Survival Factor. The LSF factor can be ignored (set to 1,0) if the luminaires are replaced immediately after failure.
  • LMF = Luminaire Maintenance Factor. Depends on type of luminaire, how clean is the environment and finally the cleaning interval of the luminaire. Normal values for interior use are between 0,93–0,98 for clean environments.
  • RSMF = Room Surface Maintenance Factor. Depends on reflectance factors in the room, how clean is the environment and finally the cleaning interval of the room. Normal values for interior use are between 0,95–0,97 for clean environments.

LLMF is basically the same as the L-value. L80 corresponds to a LLMF of 0,8. In order to find the correct L value you must first define the correct required lifetime and the correct required ambient temperature (Ta). 

LMF and RSMF values are defined in CIE 97 and most PC based light calculation programs have tables that help you chose the correct value.

Example 1:
Recessed LED luminaire used in an office landscape. This luminaire has a lifetime of L90 = 50,000 hours at Ta 25 degrees. Environment clean, cleaning interval twice a year, reflection factors 70, 50, 20.

MF = LLMF x LSF x LMF x RSMF = 0,9*1*0,96*0,96 = 0,83

Example 2:
Recessed LED downlight used in a corridor. This luminaire has a lifetime of L80 = 50,000 hours at Ta 25 degrees. Environment clean, cleaning interval twice a year, reflection factors 70, 50, 20.

MF = LLMF x LSF x LMF x RSMF = 0,8*1*0,96*0,96 = 0,74


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