A voltage multiplier circuit is an electronic circuit used to increase the output voltage magnitude from a low-voltage input source. It achieves this by using a combination of capacitors and diodes to generate a DC output voltage that is a multiple of the input voltage. Voltage multipliers are commonly used in various electronic devices and applications where high voltage levels are required, such as in cathode ray tube (CRT) displays, high-voltage power supplies, and certain types of electronic instrumentation.
The most basic type of voltage multiplier is the half-wave voltage doubler. Let's take a look at its operation:
Half-Wave Voltage Doubler:
Components: Two diodes (typically Schottky diodes) and two capacitors.
Operation: When an AC voltage source is applied as input, the diodes conduct only during the positive half-cycle of the input voltage. During this time, capacitor C1 charges to the peak value of the input voltage. During the negative half-cycle, the diodes block current flow, but the charge on C1 is retained. Thus, the voltage across C1 remains at the peak voltage level of the input.
During the next positive half-cycle, the capacitor C2 charges to the peak value of the input voltage (which is the same as the voltage across C1), adding to the voltage across C1. As a result, the output voltage across C2 is twice the peak value of the input voltage.
Full-Wave Voltage Doubler:
Components: Four diodes and three capacitors.
Operation: This circuit works with both halves of the AC input waveform. During the positive half-cycle, D1 and D2 conduct, and C1 charges to the peak voltage of the input. During the negative half-cycle, D3 and D4 conduct, and C2 charges to the same peak voltage. In the next positive half-cycle, C3 charges to the peak voltage, and the output voltage across C3 is twice the peak value of the input voltage.
Voltage Tripler and Higher Order Multipliers:
It is also possible to construct voltage triplers and higher order multipliers by adding more diodes and capacitors to the basic full-wave voltage doubler circuit.
It's important to note that voltage multipliers are typically used for low current applications, as the output current capability is limited due to the capacitors being the primary energy storage elements. Moreover, they may not be as efficient as other voltage conversion techniques, but they are useful in situations where simplicity and high voltage gain are the primary concerns.