Maximizing Efficiency: Comparing AC and DC Sources for Charging Capacitors

In summary: In this paper, the author proposes that the efficiency of a DC/DC capacitor charging through a resistor can be calculated by 1/2(1+Vci/Vin). Vin is the voltage of the voltage source, and Vci is the capacitor's initial voltage. If you replace Vin with Vrms, the formula will be accurate for AC/DC charging.
  • #1
physicsming
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0
A sine wave source charge a capacitor through a diode.

Is it more efficiency than a DC source charging a capacitor ?

base on this
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  • #2
Seems the conclusions being made aren't quite right. You cannot transfer energy through a resistor to the capacitor without loss in the resistor no matter how much of the sine wave period you pass through it.

A DC source charging a capacitor will have less loss than a Sine source charging through a diode. You have a voltage drop across the diodes in the forward bias, and so energy is lost. Not exactly sure why you're comparing this to the figure you attached because that example is charging through a resistor, which holds true for sine and DC sources either way.
 
  • #3
thanks for your answer

i need to analyse the efficiency of a AC/DC charge pump,

so i need to know the power loss of a sine wave charging a capacitor firstly.

but the general thesis and data is only analysis the DC/DC capacitor charging loss.

In this paper "A new visit to an old problem in switched-capacitor converters"

propose that the while Vin from voltage source keep close to the voltage of capacitor

it will have high efficiency. the formula in the paper for analysis DC capacitor charging

through resistor is efficiency=1/2(1+Vci/Vin). Vci is the capacitor initial voltage.

Can i use this formula to analysis the efficiency of AC/DC capacitor charge by replace

Vin to Vrms ? thanks
 

Attachments

  • 2010_A new visit to an old problem in switched-capacitor converters.pdf
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  • #4
usually there's inductor in series (before the diode bridge) for power factor correction purposes. With inductor you can avoid the loss.

When you are charging capacitor off sine wave through diode and resistor the loss will depend on the time when the circuit is turned on, as well as voltage and resistor and capacitor values. If the capacitor is small and resistance is very small and you turn circuit on at zero voltage, you have no losses (besides the diode's voltage drop). If you turn same circuit on at max phase, you can burn out the diode.
 

Related to Maximizing Efficiency: Comparing AC and DC Sources for Charging Capacitors

1. What is a capacitor AC charging loss?

A capacitor AC charging loss occurs when an alternating current (AC) is applied to a capacitor, causing it to charge and discharge. This process results in energy losses due to the capacitor's internal resistance and leakage, which can affect the overall efficiency of the circuit.

2. How does a capacitor AC charging loss affect circuit performance?

The AC charging loss of a capacitor can affect the overall performance of a circuit by reducing its efficiency and increasing the amount of power dissipated as heat. This can lead to a decrease in the output voltage and an increase in the power consumption of the circuit.

3. What factors contribute to capacitor AC charging loss?

Several factors can contribute to capacitor AC charging loss, including the frequency and amplitude of the AC signal, the capacitance and internal resistance of the capacitor, and the quality of its dielectric material and construction.

4. How can capacitor AC charging loss be minimized?

To minimize capacitor AC charging loss, engineers can select capacitors with low internal resistance and high-quality dielectric materials. Additionally, using capacitors with higher capacitance values can also reduce the effects of AC charging loss in a circuit.

5. Are there any applications where capacitor AC charging loss is beneficial?

While capacitor AC charging loss is generally considered undesirable, there are some applications where it can be beneficial. For example, in power factor correction circuits, the AC charging loss of a capacitor can help to improve the overall power factor and efficiency of the system.

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