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1. #Flicker premiere problem drivers#
2. #Flicker premiere problem driver#
3. #Flicker premiere problem series#

#Flicker premiere problem driver#

Fulham also has the 30W L05031 in its Lumo series, which is a high performance driver that offers output ripple current at less than 1%.

#Flicker premiere problem series#

The IDLC-45 series features ripple current below 5%.

#Flicker premiere problem drivers#

For example, the IDLC-45 series from MEAN WELL is a range of 45W LED drivers with a constant current mode output for LED panel lighting, flood lighting and indoor lighting. 30% flicker for this type of circuit is absolutely not uncommon.įulham Lumo L05031 30W high performance LED driverĭrivers that have a constant current mode are recommended for low flicker applications. For good flicker performance, it’s necessary to avoid simple, low cost single-stage circuits that use rectified mains with insufficient capacitor smoothing as these often have high ripple currents. Meeting this IEEE standard for flicker means choosing a driver circuit carefully, and probably paying a bit more for it. Even today, there are actually not that many LED drivers on the market that can meet this strict standard! It was quite controversial when it was introduced, as it implied that many LED lights on the market actually had negative effects on health.

This standard sets relatively strict levels of acceptable flicker in lighting – this is 8% flicker for countries where the mains frequency is 50Hz, and 10% for countries where it’s 60Hz. This standard provides guidance to help manufacturers design or select suitable LED drivers in order to minimise health and productivity effects due to flicker (in contrast to previous versions of the standard which focused on visible flicker). There is a reasonably new industry standard that regulates the amount of acceptable flicker in LED lighting, IEEE SA-1789-2015.

Percent Flicker = 100% x (max - min)/(max + min)įlicker index = Area above Mean / Total Area = Area 1 / (Area 1 + Area 2)Ī theoretical LED driver output signal used to demonstrate the percent flicker and flicker index Lights can have similar flicker percentage while having very different flicker index (i.e. The more informative metric, flicker index, accounts for the different possible duty cycles of the drive signal, comparing the duration of high and low light levels with the average intensity. Lower percentage flicker means less substantial light flicker is present. Percentage flicker is a measure of the depth of modulation of flicker, simply comparing the maximum signal level to the minimum. The most common are flicker percentage and flicker index. Poor quality LED dimmer circuits whose PWM frequencies are below 200Hz are another common culprit, along with electromagnetic interference from external noise sources.įlicker may be measured in a number of ways. The frequency of rectified mains would be 100Hz in Europe or 120Hz in the US, which is right in the problem area. For these reasons, manufacturers often skimp on capacitor specifications when budget is tight. While electrolytic capacitors are used to reduce ripple in the output current, they are expensive and bulky components, which are often the cause of failure of luminaires because of their relatively short lifetimes. The causes of flicker include cheap and simple LED drivers that use rectified mains to power the light source. More significant levels of flicker can also cause havoc with video footage played back at normal speed, appearing as dark lines across the picture.

LED lighting flicker can also cause technical problems, for example, if used in sports stadium lighting, invisible flicker can be very visible when camera footage is slowed down for replays. The most serious problems flicker can cause include migraines and even triggering epileptic seizures (if in the range 3 to 70Hz). It can also cause eyestrain, blurred vision and dizziness. At one end of the scale, it can be annoying and distracting, and even slow text reading speed by 30%.

It’s lower frequencies, even those above 80Hz that aren’t visible to the naked eye, that cause problems.įlicker present in LED lighting, even if not visibly perceptible, can have serious consequences for people’s health, especially if they are exposed for long periods of time. In fact, pulse width modulation (PWM) control schemes used in dimming use this effect at high frequency to dim the light output. With LEDs however, once the supply current drops below a certain level, no matter how briefly, the light will turn off (an LED takes around 300µs to turn off). Flicker, a repetitive switching on and off of the light source, isn’t a problem for incandescent bulbs because if the power supply to the bulb drops momentarily, the element doesn’t lose sufficient heat for the light output to diminish. With the growing popularity of LED lighting, especially now that very cheap LED luminaires are coming to the market, flicker is becoming more of a problem.