The various applications of capacitors and inductors

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Capacitors and inductors are important electrical components used in electronic circuits, as they offer a host of benefits including a long life and high reliability of the circuits they are used in.

By Potshangbam July

Electric circuits are an integral part of any electronic device. Their main task is to direct and control electric current to perform various functions, such as computation, data transfer and signal amplification. At the heart of these devices are a number of different components, which are categorised as either active or passive. Active components of the circuit regulate the electric flow. However, the devices cannot effectively function with active components alone. Though passive components seem less important compared to active components, the former play a crucial role —they control the action of the active components and act as a path for signal waveforms. In this article, we explore the importance of passive components such as capacitors and inductors.

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The difference between a capacitor and an inductor
The capacitor and inductor are components that are resistant to current changes in the electrical and electronic circuits. They are passive elements that derive power from the circuit, store it and then discharge it. The two components are widely used in alternative current (AC) and in signal filtering applications. However, they differ in terms of their functionalities. The main differences are listed below.

Choosing the right capacitors and inductors
There are various factors that need to be considered when buying capacitors and inductors. The first thing to check when selecting a capacitor is whether it is the dielectric type, as this factor controls many of its properties such as the size and package, frequency range, series resistance and other electrical properties. The function of the capacitor depends on the type of material used to make it. Aluminium electrolytic capacitors are recommended for their effectiveness. The capacitor should have enough working voltage, and buyers should make sure this does not go above 60 per cent. The ripple current is another factor to consider when purchasing capacitors for high current applications. This current causes heating in the capacitor, and can be destructive over time.

Similarly, there are certain elements that need to be considered while choosing inductors, which are mostly used either for power circuits or to prevent radio frequency (RF) interference. Therefore, understanding the application requirements is important. The size of the inductors also makes a difference to an application. For power circuit applications, large sized inductors are used along with filter capacitors. And for RF applications, small sized ferrite core inductors are recommended as the power requirement is less. Another aspect to look at when selecting inductors is the tolerance percentage. One can understand whether the inductive value of a device is different from the datasheet by looking at the tolerance percentage. Lastly, the shielded components within inductors play an important role in reducing magnetic coupling between components. They are very handy in space constrained applications.

Applications of capacitors
Capacitors are widely used components in any electrical device. There are hardly any circuit boards that do not have a capacitor on them. They are made up of various types of dielectric materials, including ceramic, electrolytic, tantalum, polyester, etc.

Ceramic capacitors: These are widely used for decoupling or bypassing on a power supply pin of an integrated circuit (IC). They also keep any stray RF signals out of the voltage supply.

Electrolytic capacitors: These capacitors are used in circuits and power electronics, where there is high power consumption.

Tantalum capacitors: Because of the use of tantalum, such capacitors can offer a higher capacitance value in smaller package sizes. Besides, they exhibit stable behaviour and offer lower leakage currents.

Applications of inductors
Inductors, as one of the basic passive components, are used in various applications.

Filters: Inductors, combined with capacitors and resistors, are used extensively to create filters for analogue circuits and in-signal processing. When inductors are used alone, they function as a low-pass filter. But when capacitors, inductors and resistors are used together, they operate as advanced filters that can be used in multiple applications.

Motors: Inductors are placed in a fixed position, and cannot be moved or aligned in nearby magnetic fields. Induction motors change the electrical energy into mechanical energy. The magnetic field produced by the alternating current helps to rotate the shaft in the motors.

Transformers: This is a popular application. Inductors that share the magnetic path are combined together and form a transformer.

Energy storage: Inductors can be used for energy storage. Unlike capacitors, they do not store energy for a long time. In the case of inductors, energy is stored in the form of the magnetic field; however, this fails when there is no power supply.

Capacitor Inductor
Here, energy is stored in the form of an electric field. It stores the energy in the form of a magnetic field.
There is no flow of current through the capacitor plates. The current passes through the coil in an inductor.
Here, energy is measured in terms of voltage. Energy stored in an inductor is calculated in terms of current.
Capacitors resist a change in voltage. Inductors resist a change in current.
There are three types of capacitors—ceramic, electrolytic and tantalum. The four major types of inductors are: coupled inductors, multi-layer inductors, ceramic core inductors and moulded inductors.
Capacitors act as an insulator for DC circuits. They are ideal for conducting high-frequency signals. Inductors act as a conductor for DC circuits. They are good at conducting low-level frequencies, and filter out high-frequency signals and oscillations.
In a DC circuit, when a capacitor is added in series with a resistor, the current initially becomes high but later falls to zero. In a DC circuit, when an inductor is added in series with a resistor, the value of the current is small and increases later over time.
Capacitance is measured in units called farads. Inductance is measured in units called henrys.


Prospects of the capacitor and inductor market

As per a report from Market Research Future, the rising demand for electronic products such as mobile phones, portable music players, digital cameras, gaming consoles, PCs and laptops can boost the interconnects and passive components market. In addition, the segment is thriving on the constant upgradation of software that is pushing the boundaries of hardware as well. In the automotive sector, the utility of components is immense, considering the increasing incorporation of communication, infotainment and navigation features such as GPS. The strong focus of the Indian government on domestic manufacturing under the ‘Make in India’ initiative is also creating a positive impact on the passive components market.

Nevertheless, there are challenges in the inductor market. The manufacturers are not yet able to reduce the size of inductors and capacitors to meet the rising trend of miniaturisation.
Despite the challenges, India’s electrical capacitor market is projected to grow to US$ 625 million by 2023 while the inductor market is expected to grow to US$ 3.94 billion by 2022. This can be attributed to the increasing adoption of smart grids, the penetration of smart devices, the growing demand for renewable energy, etc. With the move towards connected cars and ADAS (advanced driver assistance systems), the automotive sector is going to drive the passive component market in a big way.


Anil Bali, vice president, Deki Electronics Ltd, shares insights on the tech trends, the main obstacles faced in the Indian capacitor market, and a lot more.

Factors to consider while selecting a DC capacitor
There are various types of capacitors —ceramic, film, electrolytic and tantalum. Normally, ceramic capacitors have a capacitance in the range of a pico farad (pf) to a maximum of 1 micro farad. Film capacitors typically have capacitance in the range of a nano farad (nf) to 100 micro farads (mfd). Electrolytic capacitors typically have capacitance in the range of 0.1 mfd to 10k mfd.

So normally, when the capacitance value is low, you will first check if the ceramic capacitor meets your needs. Such capacitors are also cheaper than, say, an equivalent film capacitor. If the capacitance value is high, then you can choose a film or an electrolytic capacitor. Film capacitors are cheaper than the equivalent electrolytic capacitors.

Another factor to note is that ceramic and film variants are non-polar capacitors. Electrolytic versions are polar capacitors, i.e., with a positive and a negative terminal. Of course, there are non-polar electrolytic capacitors available. In terms of voltage, you can get high voltage ceramic capacitors with a rating going up to 1000kV. Film capacitors normally have a maximum rating of 100kV. Electrolytic capacitors have a maximum rating of 1kV.

In short, if you are looking for a low capacitance value in the pico farad range as well as high voltage, your first choice would be ceramic capacitors.

If higher capacitance value is required in the nano farad range, along with high voltage, your first choice would be film capacitors. If a still higher capacitance value is required in the micro farad range, along with lower voltages, your first choice would be electrolytic capacitors.

Then again, even within all these three broad categories, you have many variants, depending upon the application.

Tech trends in capacitors
The trend is towards SMD (surface mount device), miniaturisation, higher operating temperatures and longer life. SMD ceramic capacitors are widely used in many applications. Film and electrolytic capacitors are used much less due to problems caused by high temperatures at the wave soldering stage.

The miniaturisation of capacitors has become necessary due to the shrinking PCBs on which these capacitors are to be mounted. In the case of film capacitors, miniaturisation has been achieved due to technological advancements in making metallised film. Because of this miniaturisation of the PCB, there is a need for capacitors with higher operating temperatures. Earlier, electrolytic capacitors used to be of 85°C rating. Now, 105°C is the norm and their life has increased from 5000 hours to 10,000 hours. Film capacitors are now available with 150°C rating.

Safety has become another market requirement. In the case of film capacitors, this has been achieved with the innovative design of the metallised film. Also, the government’s demand for high power factor LEDs to conserve power at the generation end requires modifications in the PCBs of LEDs, using power factor correction capacitors.

Main obstacles in the manufacture of capacitors
Capacitors are very capital-intensive products. That is the reason no new manufacturer has entered the Indian market since the last 50 years. In fact, more and more factories are shutting down due to the competition from imports, especially from China. Capacitors were exempted from duty after ITA1. As a result, anyone one can import capacitors without paying any duty. After the restriction on importing Chinese capacitors into the US, these manufacturers have turned their attention to India. So now they are flooding the market with very cheap capacitors of both good and bad quality. When the rupee weakens against the dollar, the Chinese manufacturers drop their prices so that the Indian customer is not affected. The Chinese government helps Chinese firms by adjusting the price of the country’s currency.

There are two other big obstacles that come in the way of the competitiveness of Indian capacitors vis a vis their Chinese counterparts – the high cost of power and finance. Not only is power costlier in India but we have to back it up with a DG set due to lower availability. Though interest rates have come down, these are still much higher than in China. There is approximately a difference of 10-20 per cent in the cost of capacitors made in India compared to those made in China, due to the above factors.

Indian market scenario for capacitors
The DC film capacitor market was at its peak in 2015-16 when total demand amounted to ₹ 5 billion, with ₹ 1 billion coming from CFL manufacturing. We made more than 400 million CFLs in 2015-16. This market crashed when LEDs were promoted by the government as a step to save power. Today, the CFL market is practically non-existent. Of course, LED bulbs have taken over but film capacitor requirements have fallen drastically as six capacitors are used in every CFL bulb, while the LED bulb uses only two. Plus, at 400 million, the volume of LED bulbs manufactured is currently lower than at the peak of the CFL market.

Also, LED bulb manufacturers are now getting their components in kit form from China. This has resulted in further reduction in the demand for film capacitors. In addition, the slowdown in the realty sector and the auto sector in 2019 has shrunk the DC film capacitor market to less than ₹ 3.5 billion.

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