1 00:00:01,890 --> 00:00:07,530 Finite state machine is one of the main modelling techniques to represent and design a sequential circuit. 2 00:00:07,950 --> 00:00:14,310 This section takes a classic example of logic designed to demonstrate the power of FSM in describing 3 00:00:14,310 --> 00:00:15,390 sequential circuits. 4 00:00:16,950 --> 00:00:22,890 The vending machine, the example that will be explained throughout this section, is a representative 5 00:00:22,890 --> 00:00:27,300 example of a wide range of industrial applications in the area of logic design. 6 00:00:31,850 --> 00:00:38,750 This section's main goal is to demonstrate how to describe an effort to design digital logic controllers 7 00:00:38,870 --> 00:00:46,550 use in real applications to achieve this goal, we will take the vending machine controller and go through 8 00:00:46,550 --> 00:00:49,210 the circuit design and debug steps in each of us. 9 00:00:52,780 --> 00:00:55,180 These are the objectives of this section. 10 00:00:56,450 --> 00:01:02,880 Modelling a digital controller with a relatively complex FSA describing a complex FSM in actualised 11 00:01:03,080 --> 00:01:06,050 and demonstrate its behavior on the basis through both. 12 00:01:10,620 --> 00:01:17,190 This section consists of five lectures, this video of the first lecture clarifies the goal of this 13 00:01:17,190 --> 00:01:18,740 section, and it's a structure. 14 00:01:19,590 --> 00:01:26,850 The next lecture defines the functionality of a vending machine that sells candy bars for 25 cents and 15 00:01:26,850 --> 00:01:28,470 describe its related efforts. 16 00:01:29,760 --> 00:01:35,820 The third lecture explains how to describe the vending machines for some in the vending machine logic 17 00:01:35,820 --> 00:01:42,210 sentences and running the controller on the basis three report will be explained in lecture for the 18 00:01:42,210 --> 00:01:47,910 last lecture, as usual, gives you a couple of exercises to master the techniques explained throughout 19 00:01:47,910 --> 00:01:48,510 the section. 20 00:01:53,320 --> 00:01:59,260 After finishing the section, you will be able to describe a complex FSM in Etchells with confidence 21 00:02:00,580 --> 00:02:02,680 that for some tasks on the basis three bore. 22 00:02:07,660 --> 00:02:12,220 The next lecture will define a vending machine and explain how to model that in. 23 00:02:18,160 --> 00:02:24,850 These are our takeaway messages using FSM to describe a digital controller is essential in logic design 24 00:02:24,850 --> 00:02:25,270 area. 25 00:02:25,570 --> 00:02:31,150 Describing FSM in Nicholas is a must have skill for high level scientists engineers. 26 00:02:33,610 --> 00:02:36,880 Now, the police question, what is a digital succored controller?