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These are the user uploaded subtitles that are being translated: 1 00:00:00,000 --> 00:00:00,960 In this lesson, 2 00:00:00,960 --> 00:00:03,750 we're going to talk about how you can cool down your system. 3 00:00:03,750 --> 00:00:05,939 Now, all the different components inside of your computer 4 00:00:05,939 --> 00:00:07,860 generate a certain amount of heat. 5 00:00:07,860 --> 00:00:11,310 Things like, your power supply, your processor, your memory, 6 00:00:11,310 --> 00:00:13,020 as well as all of your different expansion cards 7 00:00:13,020 --> 00:00:15,030 are going to create different amount of heat 8 00:00:15,030 --> 00:00:17,580 depending on how much processing power they have. 9 00:00:17,580 --> 00:00:19,830 This is known as a thermal load. 10 00:00:19,830 --> 00:00:22,380 Now, what we need to do is get that thermal load reduced, 11 00:00:22,380 --> 00:00:23,970 because if it gets too high, 12 00:00:23,970 --> 00:00:25,710 it can actually burn up our motherboard 13 00:00:25,710 --> 00:00:27,480 and its sensitive components. 14 00:00:27,480 --> 00:00:29,310 To do this, we're going to use a mixture 15 00:00:29,310 --> 00:00:31,560 of passive and active cooling. 16 00:00:31,560 --> 00:00:33,630 Passive cooling is a type of cooling 17 00:00:33,630 --> 00:00:34,860 that's going to rely on components 18 00:00:34,860 --> 00:00:37,470 that don't have any moving parts or power. 19 00:00:37,470 --> 00:00:40,650 For example, a heat sink can be a passive device. 20 00:00:40,650 --> 00:00:43,350 A heat sink is essentially a finned metal device 21 00:00:43,350 --> 00:00:44,430 that's going to radiate heat 22 00:00:44,430 --> 00:00:46,650 away from the processor and other components 23 00:00:46,650 --> 00:00:48,450 and give it additional surface area 24 00:00:48,450 --> 00:00:51,750 so that the natural cooling inside of the case can occur. 25 00:00:51,750 --> 00:00:53,220 Think about it like this. 26 00:00:53,220 --> 00:00:55,980 Let's say, I'm going to give you a cup of hot soup. 27 00:00:55,980 --> 00:00:58,200 That cup of soup is only a small amount, 28 00:00:58,200 --> 00:00:59,700 but it's really, really hot. 29 00:00:59,700 --> 00:01:01,830 And because it's in a small area, 30 00:01:01,830 --> 00:01:03,570 all that heat is being concentrated 31 00:01:03,570 --> 00:01:05,489 inside of that small cup. 32 00:01:05,489 --> 00:01:07,620 But if I take that same amount of liquid, 33 00:01:07,620 --> 00:01:09,660 and I spread it out across a dinner plate, 34 00:01:09,660 --> 00:01:11,040 it's going to have more surface area, 35 00:01:11,040 --> 00:01:13,020 and it's going to end up cooling down quicker 36 00:01:13,020 --> 00:01:15,060 based on the ambient temperature around it 37 00:01:15,060 --> 00:01:17,340 being able to reach more of that liquid at once. 38 00:01:17,340 --> 00:01:19,200 And this additional surface area 39 00:01:19,200 --> 00:01:21,180 is what allows it to cool faster. 40 00:01:21,180 --> 00:01:23,580 And that's exactly what passive heat sinks do. 41 00:01:23,580 --> 00:01:24,900 They give more surface area 42 00:01:24,900 --> 00:01:27,060 to your processor or other components 43 00:01:27,060 --> 00:01:30,030 by applying this finned metal device on top of it. 44 00:01:30,030 --> 00:01:32,400 Now to help increase the amount of thermal transfer 45 00:01:32,400 --> 00:01:35,820 from the processor or other devices into these heat sinks, 46 00:01:35,820 --> 00:01:39,000 we're going to first apply something known as a thermal paste. 47 00:01:39,000 --> 00:01:41,430 Now a thermal paste is essentially a compound 48 00:01:41,430 --> 00:01:43,290 that's going to ensure better heat transfer 49 00:01:43,290 --> 00:01:46,320 by eliminating any kind of air gaps that may exist. 50 00:01:46,320 --> 00:01:48,000 This thermal paste is going to act 51 00:01:48,000 --> 00:01:49,500 as a phase change material 52 00:01:49,500 --> 00:01:51,750 and help take the heat out of the processor 53 00:01:51,750 --> 00:01:52,950 and into the heat sink, 54 00:01:52,950 --> 00:01:54,600 where it then gets that additional surface area 55 00:01:54,600 --> 00:01:55,560 provided by the heat sink 56 00:01:55,560 --> 00:01:57,720 and cools to the ambient temperature. 57 00:01:57,720 --> 00:02:00,330 This is the idea of how passive cooling works. 58 00:02:00,330 --> 00:02:01,163 Now it would be great 59 00:02:01,163 --> 00:02:03,090 if we could use passive cooling for everything, 60 00:02:03,090 --> 00:02:05,730 because passive cooling requires no power to operate 61 00:02:05,730 --> 00:02:08,220 and it is silent when it's operating. 62 00:02:08,220 --> 00:02:11,640 But unfortunately our CPU's processors and other components 63 00:02:11,640 --> 00:02:12,943 can create entirely too much heat 64 00:02:12,943 --> 00:02:16,680 to be able to dissipate all of it using passive components. 65 00:02:16,680 --> 00:02:20,460 So in those cases, we need to move into active cooling. 66 00:02:20,460 --> 00:02:21,840 Now active cooling occurs 67 00:02:21,840 --> 00:02:23,760 anytime you're going to be using a fan 68 00:02:23,760 --> 00:02:25,890 to be able to cool down your devices. 69 00:02:25,890 --> 00:02:27,540 When you deal with active cooling, 70 00:02:27,540 --> 00:02:29,670 you're going to have to provide power to that fan, 71 00:02:29,670 --> 00:02:32,400 and that fan is then going to spin at a certain revolution. 72 00:02:32,400 --> 00:02:34,020 The faster that fan spins, 73 00:02:34,020 --> 00:02:35,580 the more airflow is going to be created, 74 00:02:35,580 --> 00:02:38,160 and this allows more heat to be dissipated. 75 00:02:38,160 --> 00:02:40,950 Now, if you're using a large processor or graphics card, 76 00:02:40,950 --> 00:02:43,260 you're going to see that they're going to be multiple fans. 77 00:02:43,260 --> 00:02:46,830 For example, we have a fan sitting on top of our processor 78 00:02:46,830 --> 00:02:49,080 as part of an active heat sink. 79 00:02:49,080 --> 00:02:51,570 This will combine the benefits of a passive heat sink 80 00:02:51,570 --> 00:02:53,340 by giving you that additional surface area, 81 00:02:53,340 --> 00:02:54,780 but then also including fans 82 00:02:54,780 --> 00:02:57,780 to draw air over that heat sink in an active manner, 83 00:02:57,780 --> 00:02:59,940 to be able to release that heat out of the heat sink 84 00:02:59,940 --> 00:03:01,620 and into the rest of the case. 85 00:03:01,620 --> 00:03:02,453 Addition to that, 86 00:03:02,453 --> 00:03:04,680 you may have one or more case fans included 87 00:03:04,680 --> 00:03:06,030 in your tower as well, 88 00:03:06,030 --> 00:03:08,250 and this will help get the heat from inside the tower 89 00:03:08,250 --> 00:03:11,580 and push it out of the case and into the rest of your room. 90 00:03:11,580 --> 00:03:14,280 By doing this, we're getting more cold air into the case 91 00:03:14,280 --> 00:03:16,170 and pushing that hot air out of the case, 92 00:03:16,170 --> 00:03:19,020 increasing that airflow and dropping the temperature. 93 00:03:19,020 --> 00:03:22,620 This is a great way to dissipate a lot of heat very fast. 94 00:03:22,620 --> 00:03:24,870 Another place you're commonly going to see fans used 95 00:03:24,870 --> 00:03:26,910 is in the back of your power supply. 96 00:03:26,910 --> 00:03:28,590 Now, when we talk more about power supplies 97 00:03:28,590 --> 00:03:30,060 you're going to learn how power is taken 98 00:03:30,060 --> 00:03:33,510 from a high voltage AC and converted into a low voltage DC 99 00:03:33,510 --> 00:03:34,920 for use by our components. 100 00:03:34,920 --> 00:03:37,770 And that process actually generates quite a bit of heat. 101 00:03:37,770 --> 00:03:41,460 So all power supplies are going to include a fan inside of them 102 00:03:41,460 --> 00:03:44,070 to be able to pull cool air in over that power supply 103 00:03:44,070 --> 00:03:45,420 and expel out the hot air 104 00:03:45,420 --> 00:03:47,850 out the backside of the power supply and out of the case 105 00:03:47,850 --> 00:03:50,100 to help dissipate all that extra heat. 106 00:03:50,100 --> 00:03:52,350 The final place you'll find these fans located 107 00:03:52,350 --> 00:03:55,140 is going to be on your external graphics cards. 108 00:03:55,140 --> 00:03:58,380 For example, if you have a PCI Express x16 card 109 00:03:58,380 --> 00:03:59,760 plugged into your motherboard, 110 00:03:59,760 --> 00:04:03,540 that card may have one, two, or even three different fans 111 00:04:03,540 --> 00:04:05,340 located directly on that card 112 00:04:05,340 --> 00:04:07,380 to cool down your graphical processing unit 113 00:04:07,380 --> 00:04:09,660 included on that expansion card. 114 00:04:09,660 --> 00:04:12,150 Anytime you have a component that generates a lot of heat 115 00:04:12,150 --> 00:04:13,200 you can look around near it, 116 00:04:13,200 --> 00:04:15,630 and see that there's either a fan on top of that component 117 00:04:15,630 --> 00:04:16,860 or very close to it 118 00:04:16,860 --> 00:04:20,040 to dispel that heat and get it away from that device. 119 00:04:20,040 --> 00:04:22,500 Now, when it comes to active cooling and fans, 120 00:04:22,500 --> 00:04:23,970 one of the things you need to be aware of 121 00:04:23,970 --> 00:04:27,450 is that these fans can have dust build up on them over time. 122 00:04:27,450 --> 00:04:29,370 If too much dust builds up on them, 123 00:04:29,370 --> 00:04:31,770 this can cause those fans to slow down or even break 124 00:04:31,770 --> 00:04:33,300 under that excessive load. 125 00:04:33,300 --> 00:04:34,920 So one of the best practices 126 00:04:34,920 --> 00:04:36,990 is that once every three to six months 127 00:04:36,990 --> 00:04:38,400 you should open up your computer 128 00:04:38,400 --> 00:04:40,860 and blow out any of the excess dust and debris 129 00:04:40,860 --> 00:04:43,620 to get that out of the case and away from those fans. 130 00:04:43,620 --> 00:04:45,660 This will help the fans run more efficiently 131 00:04:45,660 --> 00:04:48,480 and be able to get more airflow going through that computer. 132 00:04:48,480 --> 00:04:50,820 Remember, when you're dealing with active cooling, 133 00:04:50,820 --> 00:04:52,230 you're almost always going to be relying 134 00:04:52,230 --> 00:04:53,760 on a fan-based system. 135 00:04:53,760 --> 00:04:55,620 And it's important to ensure there's good airflow 136 00:04:55,620 --> 00:04:57,090 that's happening through that case 137 00:04:57,090 --> 00:05:00,180 and over those components to cool those things down. 138 00:05:00,180 --> 00:05:01,620 Now, the final thing I want to mention 139 00:05:01,620 --> 00:05:04,470 is when we install our CPUs and processors, 140 00:05:04,470 --> 00:05:06,810 how are we going to make sure they are properly cooled? 141 00:05:06,810 --> 00:05:08,280 Now we've already mentioned in this lesson 142 00:05:08,280 --> 00:05:09,300 a couple of these components 143 00:05:09,300 --> 00:05:11,160 that we're going to use to cool down the processor, 144 00:05:11,160 --> 00:05:13,830 including a heat sink, which is a passive component, 145 00:05:13,830 --> 00:05:15,840 as well as fans, which are an active component 146 00:05:15,840 --> 00:05:17,970 and thermal paste, which helps transfer heat 147 00:05:17,970 --> 00:05:20,250 from the processor to the heat sink. 148 00:05:20,250 --> 00:05:22,320 Now, whenever you're installing a new CPU, 149 00:05:22,320 --> 00:05:25,350 you want to be able to place it into the CPU socket first, 150 00:05:25,350 --> 00:05:27,870 and then apply thermal paste to the top of it. 151 00:05:27,870 --> 00:05:29,220 When you're applying thermal paste, 152 00:05:29,220 --> 00:05:30,930 you only need a small amount. 153 00:05:30,930 --> 00:05:33,780 Generally, it's about the size of a green pea. 154 00:05:33,780 --> 00:05:36,120 Once you place that in, you'll then take the heat sink, 155 00:05:36,120 --> 00:05:37,980 and put it on top of the thermal paste 156 00:05:37,980 --> 00:05:39,060 and press that down, 157 00:05:39,060 --> 00:05:40,410 which will spread the thermal paste 158 00:05:40,410 --> 00:05:42,480 across the top of the processor. 159 00:05:42,480 --> 00:05:43,920 Once that heat sink is in place, 160 00:05:43,920 --> 00:05:46,920 you can then attach the CPU fans to the heat sink, 161 00:05:46,920 --> 00:05:49,770 which will pull the heat away from the processor. 162 00:05:49,770 --> 00:05:50,640 Now in addition to that, 163 00:05:50,640 --> 00:05:51,870 you want to make sure your case fans 164 00:05:51,870 --> 00:05:53,280 are properly installed as well, 165 00:05:53,280 --> 00:05:55,290 because that processor fan is pulling the heat 166 00:05:55,290 --> 00:05:57,390 and putting it into the center of the case. 167 00:05:57,390 --> 00:05:59,880 But if we have that without any case fans, 168 00:05:59,880 --> 00:06:02,640 all the other components are going to start heating up as well. 169 00:06:02,640 --> 00:06:05,670 So that case fan then takes that heat from the processor 170 00:06:05,670 --> 00:06:08,130 through the heat sink, through that CPU fan, 171 00:06:08,130 --> 00:06:10,110 and then pushes it out the back of the case 172 00:06:10,110 --> 00:06:11,490 using your case fans. 173 00:06:11,490 --> 00:06:14,490 So keep in mind, we have two main types of cooling. 174 00:06:14,490 --> 00:06:17,010 We have passive cooling and active cooling. 175 00:06:17,010 --> 00:06:18,480 When we're dealing with passive cooling, 176 00:06:18,480 --> 00:06:20,760 we're dealing with heat sinks and thermal paste. 177 00:06:20,760 --> 00:06:22,290 And when we're dealing with active cooling, 178 00:06:22,290 --> 00:06:24,990 we're dealing with things like case fans, processor fans, 179 00:06:24,990 --> 00:06:26,190 and other things like that 180 00:06:26,190 --> 00:06:28,340 to increase the airflow across that system. 14675