Evolution of Capacitors
Hello everyone, I hope you all are fine and having fun with your lives. Today's topic is about the Evolution of Capacitors and I have tried my best to explore all about Capacitors. A Capacitor is one of the passive elements. It is a two-terminal electrical component. It stores energy in the form of an electric field. The physical appearance of the practical capacitors varies depending upon their usages. The basic capacitor has two electrical conductors that are separated by a dielectric. The material used in electrical conductors is a conductive electrolyte, thin films, sintered beads of metal and thin foils. And, the material used in the dielectric is plastic, glass, ceramic, Vacuum, mica, paper, oxide layers, etc. A capacitor is also called a condenser. Capacitor mainly depends upon the area of the plates, the distance of the plates and characteristics of dielectric between two plates and it uses in many electronics and electrical projects.
What is a Capacitor?
It is defined as the ratio of the electric charge Q to the potential difference V.
C = Q / V
The capacitance of a capacitor is measured in units called
Farads. A capacitor is said to have one Farad of capacitance only if the capacitor can hold one ampere per second of electrons at one volt at a rate of one coulomb of electrons per second.
The Evolution of Capacitors
The evolution of capacitors took place in an interesting way. In the 6
th century, a Greek scientist ‘Thales of Mileus’ rubbed amber with animal fur. The amber acquired the ability to pick up small bits of material. After several thousands of years have passed (in the 18
th century) many changes took place. Von Kleist built the first practical capacitor. He took a medical bottle and filled it partly with water, and then sealed it well with a cork. Later he pushed a nail through the cork into the water. Next, the nail was made to contact with the electrostatic machine, this produced some charge. When Von Kleist was about to touch the nail, he felt the separated charges were able to reunite by flowing through his own body.
One of the famous experiments was Leyden Jar. Van Musschenbroek conducted an experiment that can be said as the first capacitor. His experiment was almost similar to Von Kleist’s one; however, he just removed water from the bottle and used metallic foil to wrap both inside and outside of the jar. There was a metal chain that was driven through the cork on the top of the jar. This chain was hooked with something that would produce the charge. The moment charge was delivered, the jar would hold two equal but opposite charges in equilibrium until they were connected with a wire slightly producing either spark or shock.
Leyden Jar
A scientist named Daniel Gralath was the first to combine several jars in parallel to form a battery.
Jars In Parallel
This experiment went on to another step ahead of the conclusion given by a great scientist Benjamin Franklin. He told that the charge was stored in the glass, not in the water. So, this made him replace with a dielectric sheet-like oiled paper sandwiched in between the sheets of metal foils which were rolled or folded into a small package.
Finally, the experiment took good shape when Michel Faraday added his contribution. He came up with the concept of a dielectric constant. He not only invented the first practical fixed capacitor and variable capacitor, but also the first usable capacitor which was made from large oil barrels.
Symbols Of Different Capacitors
- Symbols and Practical Diodes in the Real-Time Applications:
Capacitor Polarity:
Capacitors are measured in the units Farad. Most of the values are in micro Farad. Microfarad is one-millionth of a Farad. The PicoFarad is one-millionth of a Micro Farad. It is used in radio works. The Pico Farad capacitor size is larger than the Micro Farad capacitor. Some of the capacitors are unpolarized like resistors. They can be placed in either way in a circuit. Electrolytic Capacitors have anode and cathode that need to be placed in a particular direction. Electrolytic capacitors evaporate after 2000 hours at 105 degrees Celsius.
Construction of a Capacitor
- The basic model of the capacitor is made of two plate metals which are separated by a dielectric material.
- From this basic concept of construction, capacitors have evolved into many different models of construction.
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Construction Of Capacitor
- Real capacitors are made by taking thin strips of metal foil and dielectric material and then sandwiching them together.
Capacitor With Foil
- In an Aluminum Electrolyte Capacitor, there is an aluminum foil, an electrolyte and porous paper.
Aluminum Capacitor
- In ceramic capacitors, ceramic acts as a dielectric material.
Ceramic Capacitor
- In the air capacitors, the air is used as a dielectric medium. In the future, owing to advanced technology capacitors will be made by using different kinds of dielectric material that make them simple, multipurpose and also economical.
Air Capacitor
Capacitor’s Working Principle
A capacitor in a given supply, current starts flowing into the capacitor. The charge gets struck on both plates as they are separated by a dielectric medium. The electrons that are negatively charged particles are on one of the plates; this makes the plate negatively charged. This large mass of negative charges repels with the like charges on the other plate making it positively charged.
Now, these negative and positive charges get attracted to each other which creates an electric field in between the plates as they are being separated by an insulating material. This phenomenon is just like storing energy in a battery.
Working Of Capacitor
The positive and negative charges try to approach together to form one whole mass on the capacitor plates, the capacitor becomes charged. A capacitor has the ability to retain its electric field; this is because both positive charge and negative charge attract each other, but never reach each other. At the saturation point, capacitor plates are fully charged and cannot accept any more charges. This stage is called as the capacitance of the capacitor.
Polarized Capacitor
Polarized Capacitor is also called electrolytic capacitors. It is used in DC applications, higher leakage current, small size capacitors, low-frequency response and high capacitance. It acts as a short circuit when connected in the wrong way. These capacitors are mainly applicable in regulating voltage fitting and smoothing decoupling of power supply.
Polarised Capacitor
Non-Polarized Capacitor
A non-Polarized Capacitor is used in AC applications. When two identical polarized capacitors are connected back to back with one of them in reverse, then they act as a non-polarized capacitor with only half of its capacitance. But this has an only low frequency. If one is in need of high frequency, then a non-polarized capacitor has to be used. It is used in loudspeakers.
Non-Polarised Capacitor
Different Types Of Capacitors
Electrolytic Capacitor
Electrolytic capacitors are polarized capacitors that have anode and cathode. They use a high dielectric constant of the aluminum oxide layer on the plates of the capacitor. This is greater than normal dielectric material.
Construction of Electrolytic Capacitors
The basic capacitor has two plates and one dielectric material. In an electrolytic capacitor, two plates and foils are slightly different. One of the plates is coated with an oxide layer and the paper is soaked in the electrolyte which is placed in between the plates. The foil insulated with an oxide layer is the anode. The thickness of the anode oxide is a thin film. The second foil acts as a cathode. This has to be packaged together and form a cylinder. Now, this is placed in an aluminum can to protect it from external force. While manufacturing the electrolytic capacitor, it is necessary to use high purity foil of anode. The general thickness would be 20µm and 50µm.
Electrolytic Capacitor
It is mainly used in military and space applications, and also in devices requiring very low leakage currents or in long-life characteristics and also to generate high temperatures up to 125 °C.
Ceramic Capacitor
Ceramic capacitors are of fixed values, which cannot be varied. In this capacitor, ceramic acts as the dielectric and two electrodes have it at their extreme ends.
Ceramic capacitors are available in three main types
- Surface Mounted Multilayer Ceramic Capacitors
- Lead Disc Ceramic Capacitor
- Specialist Microwave Bare Leadless Disc Ceramic Capacitor
Ceramic capacitors are available in smaller ratings, typically between 1nF and 1µF, although values up to 100µF are possible. These are small in size and have low-rated voltage. It is a non-polarized capacitor and can be connected to an AC source.
Construction Of Ceramic Capacitor
Ceramic capacitors are made up of fine ground granules of par electric or ferroelectric materials. These are mixed in such a way to get desired characteristics. The manufacture coats them with ceramic discs and uses silver contacts on both sides. To get large capacitance, these devices are made up of multiple layers.
Ceramic Capacitor Construction
Applications of Multilayer Ceramic Capacitors include Consumer electronics, data processing, hard disks, video cameras, DVDs, mobile phones, general electronic circuits and telecommunications.
Variable Capacitor
Variable capacitors are obtained in both mechanical and electrical ways. They are mostly used in L/C circuits to set the resonance circuits. The variable capacitors are used in Radio, Television, etc.
Variable Capacitor
Capacitors are used:
- To block the flow of DC and permit AC
- To couple the sections
- To send desired signals to any sections
- For phase shifting
- For creating delay time
- In grounding the undesired frequencies
- In motor starter
- To filter the ripples in a rectifier circuit and waveforms
Applications of Capacitor
- Capacitor as a Filter: The capacitor is of low pass filter and high pass filter. The reactance of the capacitor is inversely proportional to the frequency. So, we can decrease or increase any circuit at a certain frequency.
- Capacitor as a Discharge Unit: Capacitor has the property of charging and discharging. This application can be used for triggering, ignition and triggering for high scale power sources.
- Snubber Capacitors: It is used to limit the high voltage transient across the circuits.
Thus, this is all about evolution and different types of capacitors. It is used in smooth power supply, audio frequency coupling, in RF coupling capacitor applications and in tunes circuits.