Hello! I have a question again)) - did I understand correctly: the NOT block in one cycle has an output of 1, in the next cycle it has 0 and then everything repeats?
Hello. Everything is fine! Starting from 1:37, you assemble a circuit with recursion to the NOT block. In the first cycle, the output of the NOT block is a logical one, in the second cycle it is a zero, and so on, each odd cycle is equal to a logical one, and every even cycle is equal to a logical zero? It turns out that the block does NOT switch its state in each new cycle?
Ah, yes. Have a look at the "LOGO! M & Q and the program scan" (ruclips.net/video/Bm6qlgkng1M/видео.html) where I go into some detail. I think this will answer your question. Follow that up with the "LOGO! Shift Register" (ruclips.net/video/tsi72VobvYg/видео.html) video and you'll be expert! Let me know how you get on.
important information, Thanks Sir.
👍👍👍👍
Interesting
Thanks for the feedback. I hope it helps.
Hello! I have a question again)) - did I understand correctly: the NOT block in one cycle has an output of 1, in the next cycle it has 0 and then everything repeats?
Sorry for the delay. I didn't notice your comment. At what time in the video are you asking?
Hello. Everything is fine! Starting from 1:37, you assemble a circuit with recursion to the NOT block. In the first cycle, the output of the NOT block is a logical one, in the second cycle it is a zero, and so on, each odd cycle is equal to a logical one, and every even cycle is equal to a logical zero? It turns out that the block does NOT switch its state in each new cycle?
Ah, yes. Have a look at the "LOGO! M & Q and the program scan" (ruclips.net/video/Bm6qlgkng1M/видео.html) where I go into some detail. I think this will answer your question. Follow that up with the "LOGO! Shift Register" (ruclips.net/video/tsi72VobvYg/видео.html) video and you'll be expert! Let me know how you get on.
Good, thank you. I'll watch these videos and give you feedback!