A ceramic capacitor is regarded as the fixed value capacitor where the dielectric is a ceramic material. It is made up of alternating 2 or more layers of ceramic as well as a layer of metal that behaves like an electrode. The piece of the ceramic material characterizes electrical conduct and consequently applications. Ceramic capacitors can be categorized into 2 application classes:

• Class 1 Ceramic Capacitors – This type of ceramic capacitors provide low losses and high stability for resonant circuit applications.
• Class 2 Ceramic Capacitors – It provides high volumetric efficiency for coupling, by-pass, and buffer applications.

Ceramic capacitors are one of that electrical equipment that is the most used ones. They are available in different sizes and shapes and are utilized in capacitors for EMI / RFI suppression, power capacitors for transmitters and as feed-through capacitors.

Application Classes – Definitions

The distinctive ceramic materials utilized for making ceramic capacitors like ferroelectric or paraelectric ceramics impacts the electrical attributes of the capacitors. Utilizing the mixture of paraelectric substance that is in light of titanium dioxide brings about entirely steady and linear capacitance value within a pre-defined range of temperature and low losses at high frequencies. The mixture as said above has a low value of permittivity such that the capacitance of these capacitors is generally less.

To get a high value of capacitance in ceramic capacitors, a mixture of ferroelectric materials, like barium titanate, and its specific oxides should be used. The permittivity value of this dielectric material is much higher but the capacitance is non-linear over the range of temperature, and the loss at high frequency is much higher. These features of ceramic capacitors need to be grouped into "application classes". Let's have a look at each of them.

• Class 1 Ceramic Capacitors – Class 1 Ceramic Capacitors are much accurate and temperature-redressing capacitors. They provide the most steady and stable temperature, voltage as well as frequency to some extent. Because they have low losses, they are generally suitable for resonant circuit applications. The fundamental materials required for making Class 1 Ceramic Capacitors consist of paraelectric materials (finely ground granules) like TiO₂ (Titanium Dioxide) altered by added substances of Zirconium, Tantalum, Niobium, Zinc, Strontium, Cobalt and Magnesium. All of these are important to get the desired linear characteristics of the capacitors.

• Class 2 Ceramic Capacitors – Class 2 Ceramic Capacitors have a high permittivity along with a dielectric and because of this, it has a much better volumetric efficiency than Class 1 Capacitors. But still, it has lower stability and accuracy than the Class 1 Capacitors. The ceramic dielectric is described by a nonlinear difference in capacitance over the temperature run. The capacitance value of the capacitor also relies on the applied voltage. They are good for coupling, decoupling and bypass applications.

This was all we have regarding Ceramic Disc capacitors. Hope you liked going through the article. Brands that manufacture them are Vishay, Murata, and TDK. Make sure to follow them using the links as provided.

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