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Tagged with 'led performance'

Luminous Efficacy and Useful Lumens: A Comprehensive Guide to Efficient Lighting Design

LED luminous efficacy (lumens per watt) explained

Luminous efficacy measures how effectively a light source produces visible light. With LEDs and other light sources, luminous efficacy is the ratio of luminous flux to electrical power, known as lumens per watt (lm/w). For example, the light output (luminous flux) of a 1 Watt LED can be very bright for high efficacy or barely visible for low.

The luminous efficacy is one of the defining factors of LED performance. Top performance LEDs, with the highest luminous efficacy, have 220 lumens per watt (lm/w), such as the Nichia 757G LEDs. High performance LEDs, like those from many other manufacturers, have 150-200 lm/w. At the far end, we have the low cost, poor performance LEDs with an efficiency of less than 99 lumens per watt.

Top performance LED High Performance LED Good Performance LED Poor Performance LED
220 lm/W 150-200 lm/W 100-149 lm/W 50-99 lm/W

 

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Posted in LED 101: Understanding the Fundamentals of LED Lighting

LED Strip Heat Dissipation Performance based of LED pitch and base material

LED strips and modules used for lighting fixture use, in general, multiple LEDs.
As operating a single LED generates heat, more is generated when multiple LEDs are mounted on a PCB, due to the mutual effect. As such, in the case of LED strips or modules, the junction temperature (TJ) of each LED gets higher, compared to a single light source. This leads to the decrease in the LEDs lifetime and luminous flux.
For LED strips and modules, a better thermal management is required to minimize TJ and allow a longer lifetime of the installed products. For this purpose, the LED pitch, the PCB base material and the use of aluminum profile must be taken in consideration.

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Posted in LED 101: Understanding the Fundamentals of LED Lighting

Ensuring LED Longevity and Performance: Understanding the Impact of Temperature

LED operating temperature and lifetime

LED lamps, modules and fixtures can be damaged by high operating temperature, with mechanical failure or significant drop of performance being the most common.

How a LED behaves when functioning at higher operating temperatures is directly related to its quality. High quality LEDs, like Nichia or Cree, will function within parameters at high temperatures too, while low quality LEDs will break down, change their color, loose brightness or a combination of these.

For LED technology, it is a must to avoid operating at temperatures beyond those specified by the manufacturer. Failure to do so while lead to at least one of the following:
  1. complete failure of the LED
  2. light output is decreased permanently (Lumen Degradation) even if the issue with high temperature is solved
  3. light output is decreased temporally while the LED functions at high temperature
  4. the color temperature of the white LED changes

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Posted in LED 101: Understanding the Fundamentals of LED Lighting

Demystifying LED Lifetimes: From Light Bulb to LED

LED Lifetime, Lumen Maintenance

Product lifetime, Light Bulb vs LED

The typical product lifetime of an incandescent light bulb is 1000 hours. When the bulb reaches the end of its product lifetime, it cannot emit light anymore. Typically, just before, there is spark or pop, as the filament inside breaks down.

LEDs use a different meaning for product life. They are the only light sources that over time lose brightness, even up to 90% of initial flux. Eventually, LEDs will also fail completely. However, some emit visible light even after decades.

For example, a Nichia LED with 60,000 hours typical product lifetime will continue to light well beyond the 60,000 hours rated life. Under normal operating conditions, it will even after 200,000 hours.

LED lifetime is the time interval the product can still serve its intended purpose.  The time passed until a LED has 70% of the initial brightness is equal with the product lifetime.

This definition, known as L70 lifetime,  endorsed by all well-known luminaire manufacturers and sellers.

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Posted in LED 101: Understanding the Fundamentals of LED Lighting

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