Capacitores Explicados - Los fundamentos funcionan los condensadores. Principio de funcionamiento

Mentalidad De Ingeniería

17 Feb 202008:42

Summary

TLDRIn this video, Paul from TheEngineeringMindset.com explains the fundamentals of capacitors, how they work, and their applications in electrical circuits. He compares a capacitor to a water tank, storing and releasing energy to smooth out interruptions in the power supply. The video covers the structure of capacitors, their role in power factor correction, and their use in AC to DC conversion. Paul also provides practical tips on measuring capacitance and voltage with a multimeter, emphasizing safety when handling capacitors. This video offers a clear and engaging explanation of the importance of capacitors in everyday electronics.

Takeaways

😀 Capacitors store electric charge, similar to a battery, but they release energy much faster and can't store as much energy as a battery.
😀 Capacitors are used in almost every circuit board to help smooth out interruptions in the power supply.
😀 The capacitor works like a water tank in a pipe: it stores energy (water) and releases it to smooth out interruptions.
😀 A capacitor consists of two conductive plates separated by a dielectric material, such as ceramic, and can store energy in the form of a voltage difference between the plates.
😀 When a capacitor is charged, one plate becomes negatively charged and the other positively charged, creating a voltage difference across the plates.
😀 Voltage is like pressure: it measures the difference in electric potential between two points, similar to how a pressure gauge compares water pressure inside and outside a tank.
😀 Capacitors release stored energy when a circuit is interrupted, maintaining the power supply for a short duration before the voltage across the plates equalizes.
😀 Capacitors are used in many applications, such as smoothing out AC to DC power conversion and correcting power factor in large buildings.
😀 The capacitance value of a capacitor is measured in Farads (F) or microfarads (μF), while the voltage rating indicates the maximum voltage the capacitor can handle.
😀 Capacitors can store high voltage values even after being disconnected, so they need to be carefully discharged before handling to avoid electrical shock.

Q & A

What is the primary function of a capacitor in an electrical circuit?
-A capacitor stores electrical energy in an electric field between two conductive plates, allowing it to release the energy quickly when needed, which helps smooth out interruptions in the power supply.
How does the water tank analogy help explain how a capacitor works?
-The water tank analogy compares the capacitor to a tank storing water. Just as the tank stores water when the valve is closed, a capacitor stores electrical energy. When the valve is opened, water flows out, similar to how a capacitor releases stored energy to maintain a steady power supply.
Why is a capacitor able to release its energy faster than a battery?
-Capacitors store energy in an electric field, which allows them to charge and discharge much more quickly than batteries, which store energy chemically.
What components are typically used to make a capacitor?
-A typical capacitor consists of two conductive metal plates, often made of aluminum, separated by a dielectric material, such as ceramic. The dielectric prevents the plates from touching and allows the capacitor to store energy.
What happens to a capacitor when it is connected to a battery?
-When a capacitor is connected to a battery, electrons flow from the battery's negative terminal to one plate of the capacitor, building up charge. The capacitor stores this charge until it reaches the battery's voltage level, at which point no more electrons flow.
What is the significance of the voltage rating on a capacitor?
-The voltage rating on a capacitor indicates the maximum voltage it can safely handle. Exceeding this voltage can cause the capacitor to explode or fail.
What is power factor correction, and how do capacitors help with it?
-Power factor correction involves adjusting the phase difference between current and voltage in a circuit, especially in large buildings. Capacitors are used to counteract the lag in current caused by inductive loads, aligning the current and voltage waveforms for more efficient energy use.
How does a capacitor smooth out AC to DC power conversion?
-When converting AC to DC, capacitors help smooth out the fluctuations between the AC peaks. They release energy during the gaps between the AC wave's peaks, providing a more stable DC output.
What safety precautions should be taken when handling capacitors?
-Capacitors can hold charge even after being disconnected from a circuit. Always discharge capacitors before handling them to avoid electric shocks. You can check the voltage with a multimeter and safely discharge the capacitor with a resistor.
How can you measure the capacitance of a capacitor?
-To measure the capacitance, use a multimeter with a capacitor function. Connect the red lead to the positive side and the black lead to the negative side of the capacitor. The meter will give you a reading, which might vary slightly from the capacitor's rated value.