Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:03,180 --> 00:00:06,679 This is a free, complete course for the CCNA. 2 00:00:06,679 --> 00:00:10,269 If you like these videos, please subscribe\n 3 00:00:10,269 --> 00:00:14,900 Also, please like and leave a comment, and\n 4 00:00:17,140 --> 00:00:21,339 Also, remember to sign up via the link in\n 5 00:00:21,339 --> 00:00:26,329 for this course, so you can try it out yourself\n 6 00:00:26,329 --> 00:00:30,339 If you want more labs like these, I highly\n 7 00:00:31,339 --> 00:00:35,799 It’s a network simulator with tons of guided\n 8 00:00:38,009 --> 00:00:41,659 Click the link in the video description to\ncheck it out. 9 00:00:41,659 --> 00:00:46,988 In this lab we’ll configure voice VLANs\n 10 00:00:46,988 --> 00:00:52,459 There are two PCs, each connected to an IP\n 11 00:00:53,560 --> 00:00:58,829 SW1 is a multilayer switch, but we won’t\n 12 00:00:59,829 --> 00:01:05,170 I selected this model because it supports\n 13 00:01:05,170 --> 00:01:11,060 So, if I click on phone1 for example, you\n 14 00:01:11,060 --> 00:01:18,030 However, because SW1 supports PoE phone1 is\n 15 00:01:18,030 --> 00:01:23,608 So, instead of SW1 acting as the router, we’ll\n 16 00:01:28,938 --> 00:01:37,078 CONF T. I’ll configure G1/0/2 and 3 first,\n 17 00:01:42,789 --> 00:01:47,478 Now, the data VLAN is VLAN10 as I indicate\nin the diagram. 18 00:01:47,478 --> 00:01:51,549 So, SWITCHPORT ACCESS VLAN 10. 19 00:01:51,549 --> 00:01:56,929 And the voice VLAN should be VLAN20, so SWITCHPORT\n 20 00:01:56,929 --> 00:02:02,899 Ok, that’s all of the configuration needed\non these interfaces. 21 00:02:02,899 --> 00:02:07,539 Next we have to configure router on a stick\nbetween SW1 and R1. 22 00:02:07,539 --> 00:02:11,860 Although we won’t actually be sending any\n 23 00:02:11,860 --> 00:02:16,060 to make sure that phone1 and phone2 can reach\nR1. 24 00:02:16,060 --> 00:02:21,299 I pre-configured some telephony settings on\n 25 00:02:23,629 --> 00:02:27,930 Those configurations are beyond the scope\n 26 00:02:27,930 --> 00:02:32,110 can check out R1’s running-config if you\n 27 00:02:32,110 --> 00:02:36,090 Okay, let’s configure SW1’s trunk. 28 00:02:39,169 --> 00:02:42,669 SWITCHPORT TRUNK ENCAPSULATION DOT1Q. 29 00:02:44,199 --> 00:02:49,000 Now, by default all VLANs are allowed, but\n 30 00:02:50,459 --> 00:02:54,489 So, SWITCHPORT TRUNK ALLOWED VLAN 10,20. 31 00:02:54,489 --> 00:02:59,968 Okay, that’s all of the configuration needed\non SW1. 32 00:02:59,968 --> 00:03:02,620 Next I’ll configure R1’s end. 33 00:03:09,509 --> 00:03:14,699 Okay, next I’ll configure two subinterfaces\n 34 00:03:21,158 --> 00:03:26,608 IP ADDRESS 192.168.10.1 255.255.255.0. 35 00:03:26,609 --> 00:03:32,659 That’s for the data VLAN, and next the voice\nVLAN. 36 00:03:38,878 --> 00:03:43,239 IP ADDRESS 192.168.20.1 255.255.255.0. 37 00:03:43,239 --> 00:03:50,159 Okay, that’s all of the configuration needed\non R1. 38 00:03:50,159 --> 00:03:53,530 Now let’s send some network traffic and\n 39 00:03:55,870 --> 00:03:59,879 I’ll ping PC2 and let’s see if the traffic\nis tagged. 40 00:03:59,879 --> 00:04:03,310 First, I’ll ping in realtime mode. 41 00:04:09,430 --> 00:04:12,840 Now I’ll switch to simulation mode and try\nagain. 42 00:04:14,019 --> 00:04:21,629 So, let’s check out the frame here and click\n 43 00:04:24,290 --> 00:04:28,569 There is no 802.1Q tag in the frame. 44 00:04:28,569 --> 00:04:31,259 Okay I’ll switch back to realtime mode. 45 00:04:31,259 --> 00:04:37,180 Just to make sure my configurations are correct\n 46 00:04:41,500 --> 00:04:43,399 Now it’s time to check out the phones. 47 00:04:46,879 --> 00:04:48,889 So what’s phone2’s phone number? 48 00:04:48,889 --> 00:04:53,229 I’ll go to phone2 and click on the GUI tab. 49 00:04:53,230 --> 00:04:57,509 The phone number is displayed here, 2010. 50 00:05:00,930 --> 00:05:06,759 So, SW1 told the phones what VLAN they are\n 51 00:05:06,759 --> 00:05:09,759 to use, their IP addresses, etc. 52 00:05:12,649 --> 00:05:15,250 First I’ll go back to simulation mode. 53 00:05:16,870 --> 00:05:23,189 2 0 1 0, and then click on the phone to pick\nit up. 54 00:05:23,189 --> 00:05:28,550 Notice that an SCCP, skinny client control\n 55 00:05:28,550 --> 00:05:33,300 SCCP is not something you need to know for\nthe CCNA, by the way. 56 00:05:33,300 --> 00:05:37,910 If we check out the message, in the IP header\n 57 00:05:40,079 --> 00:05:43,389 Below it you can see ‘Dot1q header’. 58 00:05:43,389 --> 00:05:48,870 So, that means this frame is tagged with a\n 59 00:05:48,870 --> 00:05:56,250 In ‘outbound PDU details’ you can see\n 60 00:05:56,250 --> 00:06:01,660 And in TCI, tag control information, you can\nsee the VLAN ID. 61 00:06:01,660 --> 00:06:08,740 Hexadecimal 0014 is equivalent to decimal\n 62 00:06:08,740 --> 00:06:15,329 That’s because we configured SWITCHPORT\n 63 00:06:15,329 --> 00:06:21,250 Okay, in this lab we configured voice VLANs\n 64 00:06:21,250 --> 00:06:27,160 is not tagged with a VLAN ID, but traffic\n 65 00:06:28,160 --> 00:06:32,400 Note that this applies not only to traffic\n 66 00:06:32,399 --> 00:06:36,489 also to traffic sent to the PCs or to the\nphones by SW1. 67 00:06:36,490 --> 00:06:42,610 SW1 will not tag traffic sent to the PCs,\n 68 00:06:44,990 --> 00:06:51,420 Now let’s take a look at a bonus lab in\n 5477