![]() The green one is the input and the output that is in red is the output i.e.We can maximize the result by right click and choosing “Maximize”.We give the Input as alternating current, but in the output we got pulsating direct current that flow in one direction. This is the time to stimulate your graph and see the required result. This time, you have to choose “Edit Graph”. Right click again on the graph screen will let you to see the dialogue box again. This is the time when you have to edit the graph to show right output.Once you have added the traces one by one by clicking the required prob, we can proceed. This will show you the screen where you can add the traces.Left click on the graph screen will show you this dialogue box. You have to set the parameters, add the trace and then simulate it. you can make the size of the graph according to your choice. Click on the screen where you want the graph. For the output, take the analogue option from the graph terminal.Connect the probes one by one to your circuit.We have to add one current probe before diode and one after the diode to see the input and output at the same time.This will allow you to choose a current prob in the circuit. Choose the current source from the left most part of the screen.Hence if you want to use this method, lets go to the point when we made our basic circuit. This is the time when we’ll learn to see the output through Analogue graph.Now run your Proteus simulation, and if everything goes fine, then you will get results, as shown in below figure:.I have normalized the oscilloscope axes for better examining of the pulses, here's my settings:.Here, I am using amplitude of 110 ms -1 and frequency as 1000 Hz.Double Click on the alternate current source to set the values.We’ll connect Terminal A before Diode and Terminal B after diode, to analyze both Input and output at the same time. The Oscilloscope has four terminals naming A, B, C, D.You will find it in the virtual instrument area from the left menu.Once we have completed the basic circuit, we’ll now choose Oscilloscope to check our output.Now let's connect the wires, as shown n below figure:.You will find GND component in Terminal area from the left menu. Connect a ground terminal as we are using Vsine i.e, the alternating current source.Now, let's design our circuit, drag & drop these components one by one in the word space.So, click on the “pick” button and select these components from Proteus Library, as shown in below figure:.In order to design this half wave rectifier, we will need these three components:.Basically, we have to design a really simple circuit, as shown in below figure:.Proteus is one of the best software for simulating electrical/electronic circuits.Let's design half wave rectifier in Proteus: Hence, full wave is more efficient than half wave, as we have seen half wave simply drops half of the pulse.Īs today's topic is about Half Wave Rectification, so we won't discuss it in detail but I hope, now you must have understood the difference between full wave & half wave.As you can see in above figure, we are now utilizing both cycles of AC current and converting them into DC current.In Full Wave Rectification, complete alternating(AC) pulse (both positive & negative) gets converted into Direct(DC) voltage.If we reverse the direction of diode, then it will block positive pulses & will allow negative ones.In above figure, we are allowing positive AC pulses to pass, while blocking the negative AC pulses.We can allow either pulse to pass or block and it depends on diode's direction.A single diode is used for Half Wave Rectification, as shown in below figure:.In Half Wave Rectification, half wave of Alternating(AC) Voltage gets converted into Direct(DC) Voltage, while the other half gets blocked.Now, let's have a look at, what's the difference between these two types of rectification processes:.Based on DC output, rectification is divided into two types i.e.Rectification process is always carried out using diodes, as we know diodes allow the current to flow in one direction only, thus they can easily block the opposite flow of alternating current.Rectification is an electrical process, which is used to convert Alternating(AC) Voltage into Direct(DC) Voltage using a circuit called rectifier.In this tutorial, we will design a simple Proteus simulation, where we will use diode for half wave rectification.īefore designing Proteus simulation, we will first have a theoretical overview of Half Wave Rectification as it's always a best approach to read theory before practical (Proteus Simulation). In today's tutorial, I will show you how to perform Simplest Half Wave Rectification in Proteus. Hello friends, I hope you all are doing great.
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