1 00:00:05,000 --> 00:00:05,000 Good morning. 2 00:00:06,000 --> 00:00:16,000 Today, I will tell you how to acquire digital signal using Ardino Mennel, so over here I have on board 3 00:00:17,000 --> 00:00:20,000 firewalled and this is my gold. 4 00:00:20,000 --> 00:00:27,000 I use these signals as zero and one one means five old and zero means OK. 5 00:00:28,000 --> 00:00:30,000 And over here we have a disturbance. 6 00:00:31,000 --> 00:00:33,000 As you see, these are my disturbance. 7 00:00:33,000 --> 00:00:34,000 These are my analog. 8 00:00:34,000 --> 00:00:39,000 So for that purpose, I just go to my makeup hub. 9 00:00:41,000 --> 00:00:43,000 And over here, this is my blue box. 10 00:00:43,000 --> 00:00:50,000 So first you have to interface, you are already know, using tools, maker, hub, Linux. 11 00:00:50,000 --> 00:00:57,000 And from where we are, I already interface my heart in L.A., so I just go to my program. 12 00:00:57,000 --> 00:01:05,000 So first you have to open your port and close your port and in between you have to operate. 13 00:01:05,000 --> 00:01:05,000 This does. 14 00:01:06,000 --> 00:01:12,000 Right now I use Reed, so I have to acquire the cell signal for that purpose. 15 00:01:12,000 --> 00:01:21,000 I just connect this old school results and add up and over here you have to just select that board. 16 00:01:22,000 --> 00:01:29,000 So in this case, my board is home six, as in my previous videos. 17 00:01:29,000 --> 00:01:31,000 And over here you have to select the board rate. 18 00:01:32,000 --> 00:01:39,000 The board rate is nine six double zero, and you have to just use a simple additive handler if there 19 00:01:39,000 --> 00:01:41,000 is some error in your program. 20 00:01:42,000 --> 00:01:47,000 So what continuous rating are they still now? 21 00:01:48,000 --> 00:01:51,000 I just created by your board here and creative control. 22 00:01:52,000 --> 00:01:54,000 So board here, mind which bin. 23 00:01:56,000 --> 00:02:03,000 So this number is like this, the DL and over here is the value. 24 00:02:04,000 --> 00:02:05,000 So I just create a square. 25 00:02:05,000 --> 00:02:09,000 Allouni you read the signal. 26 00:02:09,000 --> 00:02:10,000 You can edit this. 27 00:02:12,000 --> 00:02:14,000 OK, so there's no signal. 28 00:02:19,000 --> 00:02:22,000 So in this case, we acquired the signal. 29 00:02:22,000 --> 00:02:34,000 OK, so I disconnect this value and when I hit the button, so right now I just go to the hardware part 30 00:02:34,000 --> 00:02:37,000 or here I just check where is my cell phone? 31 00:02:38,000 --> 00:02:42,000 So that is open is over here. 32 00:02:42,000 --> 00:02:47,000 This is the X, so I just connect ground. 33 00:02:48,000 --> 00:02:56,000 As you see right now, the signal is off and when I remove this and connect this. 34 00:02:59,000 --> 00:03:09,000 So there is some matter in this case, you have to just select different pin because for days then you 35 00:03:09,000 --> 00:03:18,000 have to select other pins, like in this case I just use this 2.5 and when I hit on one button and in 36 00:03:18,000 --> 00:03:23,000 this case you have to just check. 37 00:03:23,000 --> 00:03:24,000 Very disturbing. 38 00:03:25,000 --> 00:03:29,000 Over here, this is my cell phone, so I just connect this one. 39 00:03:30,000 --> 00:03:36,000 So right now, this is my favorite signal as you see this pennies on its own. 40 00:03:36,000 --> 00:03:46,000 And when I remove this and connect this, the ground to this to the five right now, it is in connection. 41 00:03:47,000 --> 00:03:55,000 So this is how you can acquire this signal using LabView with the help of Ardino men'll. 42 00:03:55,000 --> 00:03:56,000 Thank you.