Ceramic Capacitor Temperature Coefficient

The temperature coefficient is expressed in parts per million ppm per degree celsius for class 1 ceramic capacitors or in percent over the total temperature range for class 2 capacitors.

Ceramic capacitor temperature coefficient.

30 ppm c 25 c reference within the temperature range of 55 c to 125 c. C0g np0 is the most popular formulation of the temperature compensating eia class i ceramic materials. The second character indicates the maximum temperature. The temperature coefficient of a capacitor is generally expressed linearly as parts per million per degree centigrade ppm o c or as a percent change over a particular range of.

This tutorial explains how ceramic capacitor type designations such as x7r and y5v imply nothing about voltage coefficients. Ceramic capacitor temperature coefficient tc coding class i temperature compensation type ceramic tc tc tolerance ppm c ppm c symbol for tc 25c to 85c see 4 10 25c to 55c calculated np0 c0 30ppm 30 72 n33 s1 30ppm 30 79 n75 u1 30ppm 30 89 n150 p2 30ppm 30 105. Temperature compensating type multilayer ceramic capacitors have a small temperature coefficient of electrostatic capacitance max. 5 as in x5r corresponds to 85 c and 7 as in x7r corresponds to 125 c.

Engineers must check the data to know really know how a specific capacitor will perform under voltage. Temperature coefficient tc the temperature coefficient of a capacitor is the maximum change in its capacitance over a specified temperature range. That is to say these are c0g characteristics products with a small temperature variance width. C0g np0 ceramics offer one of the most stable capacitor dielectrics available.

Only available as leaded components. Class 3 ceramic capacitors offer higher volumetric efficiency than the class 2 ceramic capacitors but their temperature stability is not nearly so good. Temperature coefficients of some often used capacitors. The first character indicates the lowest temperature that the capacitor can handle.

Modern c0g np0 formulations contain neodymium samarium and other rare earth oxides. The theoretical range is from 45 c to 200 c.