Lux is a pretty cool word; just saying lux sounds expensive. But, unlike diamonds where bigger is better, smaller is better in the world of lux and camcorders. Smaller lux rating = better camcorder. But not so fast; unlike the lux rating assigned to your camcorder, where smaller is better, the lens you mount to it comes from a world where bigger is better, as in "the bigger the glass, the bigger the aperture," which translates to...you guessed it...a smaller aperture number. That bigger glass with the big aperture and smaller aperture number means larger amounts of light gets in! Confused yet? Well, don't feel alone, because just a small amount of time spent researching lux will convince you that the people who come up with this stuff are conspiring to confuse us all!

Measuring Lux is a Science

There's no need to get bogged down with all that science, unless, of course, you just can't help yourself. For the rest of us, let's just be satisfied with "lux is the metric measurement of light falling on a subject" and "1 lux is equivalent to one candle of light at one meter" (about three feet, for the metrically challenged among us). The previous sentence states falling on a subject not reflecting from the subject - an important distinction, in that a dark subject will reflect less light than a light subject. Like us, camcorders see reflected light. So, a camcorder's sensitivity is rated by the light falling on a subject (lux), not the light reflecting back from that subject.

Sometimes values are given in lumens, which measures the light emitting from the light source as measured at varied distances. For example, a standard 100-watt incandescent light bulb will put out about 1500-1700 lumens at three meters. This bulb radiates (approximately) equal amounts of light in all directions; we say approximately, because the mounting fixture gets in the way and blocks some of the light. A standard 60-LED video light using 60 good-quality LEDs has an output of about 850 lumens at one meter. This light is projected at a limited angle of about 45 degrees. Two 28-watt T5 fluorescent light bulbs put out about 5800 lumens at one meter, which would spread to about a 90-degree angle, and a 1500-watt T3 quartz light has about 11,000 lumens at one meter, again approximately in all directions.

So, lumen is the amount of light leaving the light fixture, and lux is the amount of light reaching the subject. 100 lumens emitting from the light source as measured at a distance of one meter is also 100 lux reaching the subject at a distance of one meter. They are essentially the same values.

As for the lens, well, that's easy. The bigger the glass, the bigger the aperture, which really means the smaller the aperture number, which lets in more light, which, of course, costs more money. So what does it all mean? Well, I guess the best way to describe it is "the more you spend, the more you get," and it doesn't take a rocket scientist to figure that out!

Finding Your Right Lux Level

Ok, so now that we're experts on lux, what can we do with all that knowledge? You can go shop for a video camera, of course. And what's more fun than shopping with a wallet full of cash and a brain full of powerful information? We are going to make the most of our quest by unleashing our great knowledge carefully.

We want the most value for the money. One way to measure value in camcorders is the way they perform in low-light conditions, whether an evening soccer game or the family singing around the campfire. Camera companies express the low-light performance of their camcorders in terms of lux.

A camera with a 1-lux rating can theoretically produce a usable image with 1 lux of ambient light falling on a subject. The distance of the light source doesn't matter, because that 1 lux is measured at the subject. But there are so many variables that you really must understand exactly what the conditions were in that theoretical situation. Was the camera lens set at its widest setting where it has the largest aperture? Was the gain on the camera set to maximum where the S/N (signal-to-noise) ratio is highest? Was the shutter speed set lower?

A few years ago, you had to consider these questions and more, because there were many ways to boost the published performance of video cameras, and each manufacturer had its own standards. Fortunately, today most cameras are capable of delivering acceptable results in less-than-perfect conditions, but, if you are truly after exceptional results, then how a camcorder is tested is relevant to how it truly performs.