1 00:00:00,160 --> 00:00:03,440 Speaker 1: Audible dot com is the leading provider of downloadable digital 2 00:00:03,480 --> 00:00:07,160 Speaker 1: audio books and spoken word entertainment. Audible has over one 3 00:00:07,200 --> 00:00:10,080 Speaker 1: hundred thousand titles to choose from to be downloaded to 4 00:00:10,119 --> 00:00:13,680 Speaker 1: your iPod or MP three player. Go to audible podcast 5 00:00:13,760 --> 00:00:16,120 Speaker 1: dot com slash brain stuff to get a free audio 6 00:00:16,160 --> 00:00:18,560 Speaker 1: book download of your choice when you sign up today. 7 00:00:19,480 --> 00:00:22,759 Speaker 1: Welcome to Brainstuff from how stuff works dot com where 8 00:00:22,800 --> 00:00:33,919 Speaker 1: smart Happens. Hi Am Marshall brand with today's question, how 9 00:00:33,920 --> 00:00:38,760 Speaker 1: do they backlight l c D screens? Obviously, these screens 10 00:00:38,800 --> 00:00:41,800 Speaker 1: are brightly backlit. A lot of people use their cell 11 00:00:41,880 --> 00:00:45,280 Speaker 1: phones or their laptops as flashlights, so they're using the 12 00:00:45,320 --> 00:00:48,880 Speaker 1: backlights to produce usable light. How do they make these 13 00:00:48,920 --> 00:00:52,880 Speaker 1: backlights so bright and so consistent? Currently? There are two 14 00:00:52,920 --> 00:00:58,240 Speaker 1: technologies for backlighting the screens. Today, most computer liquid crystal 15 00:00:58,280 --> 00:01:01,560 Speaker 1: display or l c D panels are lit with built 16 00:01:01,600 --> 00:01:05,520 Speaker 1: in fluorescent tubes that are placed either above, beside, or 17 00:01:05,560 --> 00:01:09,279 Speaker 1: sometime directly behind the l c D panel. A white 18 00:01:09,319 --> 00:01:13,440 Speaker 1: diffusion panel behind the l c D redirects and scatters 19 00:01:13,440 --> 00:01:17,600 Speaker 1: the light evenly, and that ensures a uniform display. This 20 00:01:17,720 --> 00:01:21,640 Speaker 1: is known as the backlight. A fluorescent light is most 21 00:01:21,680 --> 00:01:25,520 Speaker 1: often a long, straight glass tube that produces white light. 22 00:01:26,000 --> 00:01:29,640 Speaker 1: Inside the glass tube, there's a low pressure mercury vapor. 23 00:01:30,160 --> 00:01:34,800 Speaker 1: When ionized, mercury vapor emits ultra violet light. Human eyes 24 00:01:34,880 --> 00:01:38,360 Speaker 1: aren't sensitive to ultra violet light, although the human skin is. 25 00:01:38,440 --> 00:01:41,800 Speaker 1: That's how we get sunburns. The inside of the fluorescent 26 00:01:41,920 --> 00:01:44,760 Speaker 1: tube is coated with a phosphor that's going to turn 27 00:01:44,880 --> 00:01:47,960 Speaker 1: that ultra violet light into something human beings can see. 28 00:01:48,480 --> 00:01:52,040 Speaker 1: Phosphor is a substance that can accept energy in one 29 00:01:52,160 --> 00:01:55,520 Speaker 1: form and emit the energy in the form of visible light. 30 00:01:55,880 --> 00:01:59,080 Speaker 1: For example, energy from high speed electrons in a TV 31 00:01:59,240 --> 00:02:02,720 Speaker 1: tube are orbed by the phosphors on a normal CRT 32 00:02:02,960 --> 00:02:06,440 Speaker 1: screen and then turned into light. The light that we 33 00:02:06,520 --> 00:02:09,800 Speaker 1: see from a fluorescent tube is the light given off 34 00:02:09,880 --> 00:02:14,120 Speaker 1: by the phosphor coating inside the tube. The phosphor fluoresces 35 00:02:14,200 --> 00:02:18,840 Speaker 1: when energized, hence the name. A typical laptop display uses 36 00:02:18,919 --> 00:02:23,040 Speaker 1: a tiny cold cathode fluorescent lamp also known as a 37 00:02:23,200 --> 00:02:27,120 Speaker 1: CCFL for the back light. One of these small tubes 38 00:02:27,200 --> 00:02:31,040 Speaker 1: is able to provide an incredibly bright white light source 39 00:02:31,360 --> 00:02:33,799 Speaker 1: that can be diffused by the panel behind the l 40 00:02:33,840 --> 00:02:38,200 Speaker 1: c D In addition to providing ample light, CCFLs do 41 00:02:38,320 --> 00:02:42,079 Speaker 1: not rise far above the ambient temperature. This makes them 42 00:02:42,120 --> 00:02:45,040 Speaker 1: ideal for l c D panels since the light source 43 00:02:45,200 --> 00:02:48,519 Speaker 1: is close to the other components that could be ruined 44 00:02:48,520 --> 00:02:52,480 Speaker 1: by excessive heat. One amazing thing about these lamps is 45 00:02:52,520 --> 00:02:57,600 Speaker 1: their incredibly small size. They are extremely thin, about the 46 00:02:57,720 --> 00:03:01,040 Speaker 1: size of the graphite in a wooden pencil, and the 47 00:03:01,120 --> 00:03:04,640 Speaker 1: board that drives the lamp is very small as well. However, 48 00:03:04,760 --> 00:03:07,400 Speaker 1: it's not that hard to break these lamps, which is 49 00:03:07,440 --> 00:03:10,440 Speaker 1: why you're display may go dark if you drop your laptop. 50 00:03:10,800 --> 00:03:14,160 Speaker 1: The technology that's coming on strong today and is likely 51 00:03:14,240 --> 00:03:17,639 Speaker 1: to completely replace these fluorescent lamps in the future is 52 00:03:17,880 --> 00:03:20,720 Speaker 1: l e ED technology. L e d s are more 53 00:03:20,880 --> 00:03:24,680 Speaker 1: rugged than fluorescent lamps, they use less power than fluorescent lamps, 54 00:03:24,760 --> 00:03:28,119 Speaker 1: and they're more adjustable than fluorescent lamps. But they also 55 00:03:28,160 --> 00:03:31,320 Speaker 1: have this one other really interesting feature that's now used 56 00:03:31,360 --> 00:03:34,040 Speaker 1: on some of the high end l e ED backlit 57 00:03:34,600 --> 00:03:37,040 Speaker 1: h D t V screens, and that is you can 58 00:03:37,080 --> 00:03:39,400 Speaker 1: turn the l e d s in the backlighting on 59 00:03:39,520 --> 00:03:42,360 Speaker 1: and off separately, so you can have an array of 60 00:03:42,440 --> 00:03:44,760 Speaker 1: white l e d s that are behind the l 61 00:03:44,800 --> 00:03:47,480 Speaker 1: c D panel and in the areas that are supposed 62 00:03:47,520 --> 00:03:50,720 Speaker 1: to be dark, you can turn down or turn off 63 00:03:50,840 --> 00:03:53,280 Speaker 1: those l c D s. So when you look at 64 00:03:53,640 --> 00:03:55,920 Speaker 1: big l c D h D t V s today 65 00:03:55,920 --> 00:03:59,240 Speaker 1: and you see them with super high contrast ratios like 66 00:03:59,360 --> 00:04:03,080 Speaker 1: three million to one or ten million to one contrast ratios, 67 00:04:03,440 --> 00:04:06,640 Speaker 1: that's being done by having a panel of l e 68 00:04:06,760 --> 00:04:09,680 Speaker 1: d s that are behind the l c D panel, 69 00:04:10,080 --> 00:04:12,600 Speaker 1: and those l e d s are being controlled by 70 00:04:12,640 --> 00:04:16,880 Speaker 1: the TV signal to turn parts of the screen completely dark. 71 00:04:18,839 --> 00:04:21,200 Speaker 1: For more on this and thousands of other topics, does 72 00:04:21,240 --> 00:04:23,440 Speaker 1: that how stuff works dot com and don't forget to 73 00:04:23,520 --> 00:04:25,359 Speaker 1: check out the brain stuff blog on the house stuff 74 00:04:25,360 --> 00:04:27,920 Speaker 1: works dot com home page. 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