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What is Buck Convertor

akanzler007akanzler007 wrote 06/03/2020 at 10:34 • 4 min read • Like

We have all come across situations where we need a change of voltage which is lower because the power supply is of a different voltage. Luckily for us it is possible to convert one DC voltage to another. Enter Buck Converters. These electronic modules can step down the voltage from its input to the output.

In this guide we will see what are Buck converters and how do these modules work.

Buck Convertors

buck converter (step-down converter) is a DC-to-DC power converter which steps down voltage (while stepping up current) from its input (supply) to its output. It is a class of switched-mode power supply (SMPS) typically containing at least two and at least one energy storage element, a capacitor, inductor, or the two in combination. To reduce voltage ripple, filters made of capacitors are normally added to such a converter's output and input.

The basic operation of the buck converter has the current in an inductor controlled by two switches (usually a transistor and a diode). In the idealized converter, all the components are considered to be perfect. Specifically, the switch and the diode have zero voltage drop when on and zero current flow when off, and the inductor has zero series resistance.

Working of Buck Convertors

The conceptual model of the buck converter is best understood in terms of the relation between current and voltage of the inductor. Beginning with the switch open (off-state), the current in the circuit is zero. When the switch is first closed (on-state), the current will begin to increase, and the inductor will produce an opposing voltage across its terminals in response to the changing current. This voltage drop counteracts the voltage of the source and therefore reduces the net voltage across the load. Over time, the rate of change of current decreases, and the voltage across the inductor also then decreases, increasing the voltage at the load. During this time, the inductor stores energy in the form of a magnetic field.

If the switch is opened while the current is still changing, then there will always be a voltage drop across the inductor, so the net voltage at the load will always be less than the input voltage source. When the switch is opened again, the voltage source will be removed from the circuit, and the current will decrease. The decreasing current will produce a voltage drop across the inductor, and now the inductor becomes a Current Source. The stored energy in the inductor's magnetic field supports the current flow through the load.

This current, flowing while the input voltage source is disconnected, when concatenated with the current flowing during on-state, totals to current greater than the average input current. The "increase" in average current makes up for the reduction in voltage, and ideally preserves the power provided to the load. During the off-state, the inductor is discharging its stored energy into the rest of the circuit. If the switch is closed again before the inductor fully discharges, the voltage at the load will always be greater than zero.

Applications of Buck Convertors

The Step-Down convertors can be used in other applications like it can be used as a battery charger, as a LED constant current driver module and is used in many electronic and communication equipment also.

Given below is a list of some of the best DC-DC step down convertors.

To explore more Buck convertors at the Best Price Click Here.

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