1 00:00:02,540 --> 00:00:05,460 Hello and we'll come to this and you listen. 2 00:00:06,230 --> 00:00:17,420 Now I'll talk about pick it of the back 18 of product simony also has an eight bed Cebu and extended 3 00:00:17,420 --> 00:00:27,320 bed for months of pick 16 after device family SEPIC 18 of device family can operate at speed up to 12 4 00:00:27,790 --> 00:00:38,720 IP switches million instructions per second and has a hardware must play for faster calculation of control 5 00:00:38,780 --> 00:00:40,500 algorithms. 6 00:00:40,550 --> 00:00:48,470 There are variants in the pick in our family with pasteurised motor control paraphiliacs including a 7 00:00:48,470 --> 00:00:56,930 three phase motor control BW arm pair Farrel's and a quadrature encoder interface. 8 00:00:57,470 --> 00:01:08,000 In short Q or the either pick 18 variants have the ECB you will found on the pic is 16 after device 9 00:01:08,000 --> 00:01:12,290 family source code developed for a pick 16 device. 10 00:01:12,340 --> 00:01:20,420 How many can be easily migrated to the pick 18 assembly devices with the motor control P.W.. 11 00:01:20,500 --> 00:01:27,230 I'm with you will are well-suited for variable speed 3 phase motor application while devices with that 12 00:01:27,430 --> 00:01:33,490 PCB module are useful for plush DC and Parmentier application. 13 00:01:36,010 --> 00:01:42,250 Now this is a quick theoretical introduction to summarize things. 14 00:01:42,280 --> 00:01:52,390 I created this presentation slide so that I can surmise the main features of the pick it off so it has 15 00:01:52,390 --> 00:02:01,990 up to 12 million instructions per second execution speed with each W.M. Blair or hardware software. 16 00:02:02,060 --> 00:02:05,110 We have also motard control BW. 17 00:02:05,110 --> 00:02:12,100 I'm with you all with up to 8 outputs which is a very advanced feature that you can't find in the pic 18 00:02:12,130 --> 00:02:16,910 60 AF It has one or more ECAC been with you. 19 00:02:17,170 --> 00:02:24,840 It has 8 or 10 bit ADC with up to 200 Caillaud. 20 00:02:25,360 --> 00:02:28,570 Sample rate on pick it up. 21 00:02:29,200 --> 00:02:33,730 It also has up to 3 internal competitors. 22 00:02:34,000 --> 00:02:42,380 Also Subodh communication interfaces such as you as odd as I to see can and you ask me. 23 00:02:42,850 --> 00:02:50,510 So these were the main features for pick 18 of these features. 24 00:02:50,740 --> 00:02:57,200 You can find some of them in Lebec 16 arf such as USA RS SB on. 25 00:02:57,380 --> 00:03:03,310 I do see but you can't find that speed which is about 12 million instruction per second. 26 00:03:03,490 --> 00:03:12,070 You can't find motor control BW I'm with you all SoBo for up to 8 out but you can't find that CCBN would 27 00:03:12,070 --> 00:03:12,830 use. 28 00:03:13,030 --> 00:03:20,380 So in order to make the right choice you need to consider your application and what you need to accomplish 29 00:03:20,380 --> 00:03:25,090 using this pick and the next lesson. 30 00:03:25,360 --> 00:03:33,100 I will talk about the main differences and the quick comparison between pick 18 af and pick 16. 31 00:03:33,100 --> 00:03:38,610 AF So that we can have a clear slope on which one is better for us. 32 00:03:38,950 --> 00:03:44,030 And to summarize things before moving to the practical part of this course. 33 00:03:44,050 --> 00:03:48,540 If you have any questions please ask in the Q&A abor this is educational engineering team.