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Voltage Multipliers


Voltage multiplier is a modified capacitor filter circuit that delivers a dc voltage twice or rnore times of the peak value (amplitude) of the input ac voltage. Such power supplies are used for high-voltage and low-current devices such as cathode-ray tubes (the picture tubes in TV receivers, oscilloscopes and computer display). Here we will consider half-wave voltage doubler, full-wave voltage doubler and voltage tripler and quadrupler.

Half-Wave Voltage Doubler

The circuit of a half-wave voltage doubler is given in figure shown below. During the positive half cycle of the ac input, voltage, diode D1 being forward biased conducts (diode D2 does not con­duct because it is reverse-biased) and charges capacitor C1 upto peak values of secondary voltage Vsmax with the polar­ity, as marked in figure shown below.
Half-wave voltage doubler
Half-wave voltage doubler
During the negative half-cycle of the input voltage diode Dgets forward biased and conducts charging capacitor C2. For the negative half cycle, the lower end of the transformer secondary is positive while upper end is negative. The polarity of the capacitor C­2 has also been marked in the figure. Now starting from the bottom of the transformer secondary and moving clockwise and applying Kirchhoffs voltage law to the outer loop we have
-Vsmax – Vc1 + Vc2 = 0
Or
Vc2 = Vsmax + Vc1= Vsmax + Vsmax = 2Vsmax = Twice the peak value of the transformer secondary voltage. (Since Vc1 = Vsmax)
During the next positive half-.cycle diode D2 is reverse-biased and so acts as an open and capacitor C2 discharges through the load If there is no load across the capacitor, Cboth capacitors stay charged – C1 to Vsmax and Cto 2Vsmax. If, as expected there is a load connected to the output terminals of the voltage doubler, the capacitor C2 discharges a little bit and consequently the voltage across capacitor C2 drops slightly. The capacitor Cgets recharged again in the next half-cycle. The ripple frequency in this case will be the signal frequency (that is, 50 Hz for supply mains.)

Full-Wave Voltage Doubler

The circuit diagram for a full-wave voltage doubler is given in the figure shown below. During the positive cycle of the ac input voltage, diode D1 gets forward biased and so conducts charging the capacitor C1 to a peak voltage Vsmax with polarity indicated in the figure, while diode D2 is reverse-biased and does not conduct.During the negative half-cycle, diode D2 being forward biased conducts and charges the capacitor C2 with polarity shown in the figure while diode D1 does not conduct. With no load connected to the output terminals, the output voltage will be equal to sum of voltages across capacitors C1 and Cthat is, VC1 + VC2 or (Vs max + Vs max) or 2 Vs max. When the load is connected to the output terminals, the output voltage VL will be somewhat less than 2 Vs max. The input voltage and output voltage waveforms are also shown in the figure below.
Full-wave voltage doubler
Full-wave voltage doubler

Voltage Tripler and Quadruples

The half-wave voltage doubler, shown in the earlier figure can be extended to provide any multiple of the peak input voltage (that is, 3 Vs max, 4 Vs max or 5 Vs max), as illustrated in the figure shown below. It is obvious from the pattern of the circuit connections how additional diodes and capacitors are to be connected to provide output voltage, 5,6,7 or 8 times the peak input voltage from a supply transformer of rating only Vs max, and each diode in the circuit of PIV rating 2 Vs max. If load is small and the capacitors have little leakage, extremely high dc voltages can be obtained from such a circuit using many sections to step-up the dc voltage.
In operation capacitor C1 is charged through diode Dl to a peak value of transformer secondary voltage, Vs max during first positive half-cycle of the ac input voltage. During the negative half cycle capacitor C2 is charged to twice the peak voltage 2 Vs developed by the sum of voltages across capacitor C1 and the transformer secondary. During the second positive half-cycle, diode D3 conducts and the voltage across capacitor C2 charges the capacitor C3 to the same 2 Vg max peak voltage. During the negative half-cycle diodes D2 and D4 conduct allowing capacitor C3 to charge capacitor C4 to peak voltage 2 VS max. From the fogure shown below it is obvious that the voltage across capacitor C2 is 2 Vs max, across capacitors C1 and C3 it is 3 Vs max and across capacitors C2 and C4it is 4 Vs max.
If additional diodes (each diode of PIV rating 2 Vs max) and capacitors (each capacitor of voltage rating 2 Vs max) are used, each capacitor will be charged to 2 Vs max. Measuring from the top of the transformer secondary winding (figure below) will give odd multiples of Vg max at the output, while measuring from the bottom of transformer secondary winding will give even multiples of the peak voltage, Vs max.
Voltage Tripler and Quadruplar
Voltage Tripler and Quadruplar
Some electronic devices, such as cathode ray tubes (in picture tubes in TV receivers, oscilloscopes and computer display) need dc power supply at high voltage with low current. This requirement can be met with either by employing a step-up transformer with a rectifier circuit or by employing voltage multiplier. Since transformers are very bulky and costly, voltage multipliers are preferred. By using voltage multipliers, the voltage level is usually raised well into the hundreds or thousands of volts.
Generally such circuits are employed when both the supply voltage and load are maintained constant.

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