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Examples of man-made piezoelectric ceramics. Image kindly provided by Meggit Denmark

Image by Meggitt Denmark

Piezo Accelerometer Tutorial

The Piezoelectric Effect

Piezo Materials (easy)

 Here is a more advanced version of this page  

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Internal Resistance

Classification of Materials

To put some order in the world we normally classify the items. In the world of piezo materials we have already seen two different kinds, the single crystals and the ceramics. Another classification would be man-made versus natural materials. However almost all piezo materials that are used technically are man-made. Only a few single crystals like Tourmaline are found in nature only .

The materials specialists use an overwhelming number of classifications criteria such as the fabrication method, the crystallographic aspects or chemical composition. For our purpose when we want to build a piezoelectric sensor a simple order of the sensitivity (for example the compression mode charge constant) makes most sense. Thereby we have to keep in mind that the piezoelectric constants for other modes like shear are mostly quite different.

Another practical aspect to use or choose a piezo material is the useful temperature range. We have seen that above the Curie-temperature the piezo effect is lost. In practice the maximal allowed operating temperature is even quite a bit below that.

Besides the Curie-temperature which is a real hard limit, there are other limiting temperature effects. One particular aspect is the internal electrical resistance of a piezo element which is strongly dependent on the temperature. We will see later that some important characteristics of a piezoelectric sensor are related to this resistance.

Sensitivity vs. Maximum Operation Temperature

The picture shows a few piezo-materials with their sensitivity versus the maximum allowed operation temperature.

It shows the drastic decrease of basic sensitivity with increasing temperature capability of the material.

Lead Zirconate Titanate (PZT) is the most commonly used piezo ceramic with compression mode charge constants of a few hundred pC/N and reasonable operations temperatures.

Sensitivity versus the maximum operation temperature of some typical piezo-materials

PNM-PT is a group of recently developed single crystals with ultra high sensitivity. They show charge constants of 1000 to 2000 pC/N but with Curie-temperatures of 30 to 80°C.

The Bismuth Titanates (BT) are ceramics in the 500 to 600°C range with sensitivities of 10 to 20 pC/N

Finally there is a real high temperature group (all of them single crystals). Here we find Langatite and Langasite (LGT, LGS), Gallium Phosphate (GaPO), or the rare earth calcium oxoborates such as YCOB, with about 4 to 8 pC/N. This group includes also the natural crystal Tourmaline with 2 pC/N.

Internal Resistance

The internal resistance of a piezo element is the electrical resistance that we measure from one electrode to the other.

A piezo material is basically an insulator. That means the internal Resistance is extremely high. To measure it we need a so-called Teraohm-meter. This instrument indicates the resistance in decades like 10⁶, 10⁷, 10⁸, 10⁹  Ohms etc.

Did you know what "Ohm" means?

In order to get a proper electrical signal of an accelerometer the internal resistance must be as high as possible. That’s why it is an important characteristic of the material.  At room temperature the internal resistance of a sound piezo element is normally in the order of 10¹²  to 10¹⁴  Ohms.

If we look at the progression of the internal resistance versus temperature of a piezo material we find that the resistance decreases exponentially with increasing temperature. Depending on the material the resistance may decrease by one decade (ten times) up to more than two decades (one-hundred times) per 100°C of temperature increase.

This figure shows typical internal resistances vs temperature for common size piezo ring elements.


The internal resistance of a piezo element decreases with raising temperature about one decade per 100°C for a Tourmaline element and with more than two decades per 100°C for a PZT element.

Internal resistances vs temperature for common size piezo elements.



Before you leave:  ––
Did you know how to make piezo ceramics?

Sensitivity vs op Temp.

 This is the continuation of the green, easy path 

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