![]() In this way we get the result of two waves that gives us the full wave rectifier as aggregated effect. And the magic is, both the outputs are direct current but we are getting full wave as the combination. Whereas, the blue wave (B terminal) shows positive half cycle and magenta one (C terminal) shows the negative half cycle. The Yellow (A Terminal) wave shows the input that is sinusoidal wave. These values vary according to the type of components used, the value of frequency and amplitude of the sinusoidal wave source and some other factors. we are going to give frequency of 1000Hz and amplitude of 120V. Double tap the mouse left button on the vsine source and change the values according to need.There is a need of setting the values of components and we are going to do this one by one.Now our Circuit should look like the picture below:.Connect Terminal A before the bridge, terminal B with right output of the bridge and terminal C with the left output of the bridge so that we can see the input and output wave at the same time. Fix it in the place where we can connect it with the circuit. Choose the oscilloscope from the Virtual instruments’ mood> Oscilloscope.We need an Oscilloscope that is an output device and a ground terminal to limit the voltages that can appear on distribution circuits. At this instance, we are supposed to add some other components from other portions. Click at the ends of the components and connect them according to the circuit given below: Now we are moving towards Settings the values of components. ![]() Change the value of rectification to 500 ohm by simply double clicking and giving the value.Hence tap the right button, go to place> Terminal>Ground and add it to the wire connected directly to the anode (assumed) of the bridge. To pick the ground terminals, there are more then one way.To allow the current flow from the circuit, we are supposed to connect all the components. For this, Choose the ingredients one by one from the pick library by clicking them and then double click the working screen and fix them.Being the sinusoidal wave, it changes its direction at regular interval. In our case, we are going to suppose the upper as Anode and lower as Cathode.Go to the pick library button situated in the left of screen having the button with symbol “P”.For a start, we need three basic components:.First of all, we have to pick the components we need for the experiment.In Proteus, we can make the desired circuit easily as it has all the components and functionality.įor a concept, it will be useful to know that the bridge has four corners out of which one is called anode, 2 nd is called cathode and left and right corner has the output. Practical performance of FWR in Proteus ISIS: One can get smooth waveform by using the ripple frequency can be obtained. But if we add the bridge (or another diode) then during the 2 nd half cycle (that was stopped in the diode) the output will be accessed and we get the full half cycle in the ideal situation. During half wave rectification, half of the wave is wasted as diode can only work during 1 half cycle.Some of advantages of full wave rectification over half wave rectification are: So we can use more than one diode and use it in many ways. ![]() If you have this, then you are really a good learner and I am here to solve the question.Īs we all know a diode can pass the electricity through it on in one half cycle. If you have learnt or heard about the Half wave rectification, then there must be a query in your mind that why there is a need of full wave rectification if we have a basic, simple and working circuit of half wave rectification. Let’s jump to the 2nd Question and find the answer. ![]() Hence, the device used for this purpose is full wave rectifier and the process is called full wave rectification. So, we need to convert it in the form of direct current in some cases. Revise the concept that the current in our houses is in the form of Alternating current. “ Full-wave rectification is the process to converts both polarities of input (sinusoidal)wave to pulsating DC (Direct current)."
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