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Hello, friends.

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Today I will tell you mixed signal graph.

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So for that purpose, you just go to the front panel.

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In the graph, you just find out.

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Mixed signal graph.

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The mixed signal graph is used for both the signals it will generate.

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It will show you the digital signal as well as it will show you analog signal.

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So over here we have this one mixed signal graph.

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So for this we just need a signal.

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So I just go to the signal processing.

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In the signal processing waveform generation, I have this sine wave.

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As you see over here, this is my sine wave.

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So in this sine wave, I just.

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Connect this sine wave to my bundle function.

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Initially.

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This is my sine wave over here.

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So.

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You just need to.

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Increase the number of signals.

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So how many you want to bundle over here?

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So this is my initial signal, and I just want, uh, absolute value of this sine wave, let's say.

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So I just connect.

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Or here, this is my sine wave.

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I just connect to the signal, so when I just go to my mixed signal.

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As you see over here, one signal is extra.

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So when you hit on run button, as you see, I got two signals.

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One is red, another one is white.

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So white one is complete sine wave and another one is absolute value because it does not.

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Perform for negative values.

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So right now, this is the sine wave.

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So now for the digital signal, I just go to the comparison when the value is greater than equal to

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zero.

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When greater than zero, it will generate true, otherwise false.

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So I just connect this signal to my signal over here.

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So first, before this, I want to just go to the waveform.

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Get waveform.

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So over here, connect this signal.

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So over here we got an array.

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And now just bundle.

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This bundle array over here.

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So I want to just.

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Get the two values.

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One is negation of the given value.

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So I need two digital values, as you see over here.

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Build array will generate signals.

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So over here, I just want to transpose this signal.

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Or here.

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This is my transpose 2D array.

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Right now, signal is transposed.

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So now I want to just go to, again, waveform digital waveform conversion.

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I want to just convert Boolean signal to digital waveform.

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So just connect this signal.

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And over here we got the digital waveform.

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So in this case, I just increase the bundle size.

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Connect this signal over here.

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So when you hit on run button, as you see over here, we got two signals.

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Not two signals.

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Two digital signals also.

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So as you see over here, the red one is my absolute signal.

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White one is my sine wave.

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And over here I got the signal value.

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So if you want to just check the values also, as you see 1010 in the form of digital signal, we just

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got this.

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So if you want to add plot area over here, as you see, I just add plot area and if you want to separate

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two signals, you just easily.

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Check out for this.

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You can also increase or decrease the size.

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As you see over here.

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So this is how you can change.

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If you want to add more plot area to it.

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Like this.

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Over here I got another plot area.

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If you want to just separate this signals.

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So you just move from this place to this place.

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Okay, so this is how you can perform digital signals right now over here.

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No signal, is there?

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This complete signal is inside this bus system.

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If you want to go with right now, we have the signal of only sign.

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Right now if you want to plot for course also.

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So we just go to that again, signal processing over here.

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Waveform generation, as you see over here, cause signal is not present.

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So if you want to go, for course, we just know the formula that is R one minus cos square, so I just

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subtract.

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One.

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I just create constant one.

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Minus four square.

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So this one minus sine square.

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So I want to perform one minus sine square.

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So over here I just connect.

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So it will generate sine square for me, correct it.

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So one minus sine square, square root of this.

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And the square root of this.

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Signal.

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It will give me the signal.

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So I just increase the size again.

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So over here I got the sign.

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And of course, over here in this one, I got the call signal over here.

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I got the sign signal.

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So I just remove this signal from here.

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Connect this one.

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Remove this one.

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So one signal is sine wave, one signal is cos wave.

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As you see over here.

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So you just track over here.

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So this is my signal.

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This is my sine signal.

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And over here I got the value.

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And if you want digital value of this signal also, you just go to the waveform.

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Get waveform components.

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So over here, I got the waveform components.

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You just copy this complete function for this.

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As you see, just connect this signal.

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Control B control U to minimize.

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And over here, I just want to remove this signal.

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Because I need cost function only over here.

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So just.

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Increase the size.

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Connect this waveform to over here.

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Control U.

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When you again hit on run run button as you see over here, these are my different signals over here.

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So as you see.

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Or here, I got the signal and this is my sine signal.

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And if you want to just plot in different areas, you just go with the signal as you see over here.

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So this is how you can perform for different signals.

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You can create your own mixed signal graph using this way.

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So this is all about today's lecture.

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Thank you.