Rewrite Theroy

Get perfect grades by consistently using Place your order and get a quality paper today. Take advantage of our current 20% discount by using the coupon code GET20

Order a Similar Paper Order a Different Paper

Rewrite every sentence with academic words and add to it. Every sentence must be rephrased but with the same meaning. No plagiarism or late work.


An AC-DC converter is a device that can turn an AC power supply into a DC power supply by forcing the current to flow one direction with a diode and reading a low frequency from the high frequency produced by the carrier.

As shown above in figure 1 the voltage supplied across point a and c is sinusoidal. When the diode D is inserted between the voltage source (AC) and the resistor R the current is only allowed to flow in the positive direction. Between point b and c the wave form is only positive because both the negative current and voltage have stopped by the diode. This positive only waveform is called a half-wave rectified voltage.

An alternative to finding a more precise DC voltage is to
use a capacitor as a filter. The Capacitor is inserted in figure 3 parallel to
the load resistor so that it can absorb the voltage as it changes throughout
the circuit. The capacitor works as a
battery within the circuit and absorbs the voltage provided by the voltage
source. As the voltage reaches its max the capacitor contains the same voltage
and then begins to discharge through the parallel load resistor. This occurs
until the voltage reaches its maximum value again because of the sinusoidal
function of the voltage. This fluctuation of voltage is called the ripple
voltage (Vrip) and can be calculated by equation 2 below. The minimum and
maximum can be found in when obtaining a wave form similar to that of figure 3.
The ripple factor is the percentage of ratio between the between the ripple
voltage and DC voltage. This ripple factor can define the quality of the power
supply through the circuit and can be found by equation 3 below. A larger
capacitance results in a smaller ripple factor and a better power supply.

The capacitor draws more current then the load resistor
because there is a protective resistor directly after the diode which can be
seen in figure 3. A disadvantage to the setup if this circuit is that the
maximum voltage is reduced because of the protective resistor.

  1. A circuit with a full wave rectifier can be designed similar to that of figure 1 as long as the circuit includes a voltage source, diode, and resistor.
  2. The time constant of the filter is equal to the RC instead of the rc because the load resistor (R) maintains the the voltage because it is in the same loop of the capacitor. This happens because the capacitor replicates the voltage provided by the voltage source.


After analyzing the data and the oscilloscope the theory can be confirmed about how a power supply interacts with a diode, resistors, and a capacitor. The equations provided analyze that data for the Vrip, Vdc, and ripple factor.

Do you need help with this or a different assignment? We offer CONFIDENTIAL, ORIGINAL (Turnitin/LopesWrite/SafeAssign checks), and PRIVATE services using latest (within 5 years) peer-reviewed articles. Kindly click on ORDER NOW to receive an A++ paper from our masters- and PhD writers.

Get a 15% discount on your order using the following coupon code SAVE15

Order a Similar Paper Order a Different Paper