Especially the machine-building industry often asks me which is the proper measuring element for them. This is why why I would like to explain in this article the differences between your most commonly used sensors Pt100, Pt1000 and NTC. I am going to go into greater detail concerning the lesser-used measuring elements Ni1000 and KTY sensors in the comparison by the end of this article.
Application areas of Pt100, Pt1000 and NTC
Resistance thermometers on the basis of Pt100, Pt1000 (positive temperature coefficient PTC) and NTC (negative temperature coefficient) are employed everywhere in the industrial temperature measurement where low to medium temperatures are measured. Along the way industry, Pt100 and Pt1000 sensors are used almost exclusively. In diaphragm seal , however, often an NTC can be used ? not least for cost reasons. Since meanwhile the Pt100 and Pt1000 sensors are manufactured in thin-film technology, the platinum content could possibly be reduced to a minimum. As a result, the purchase price difference when compared to NTC could be reduced to such an extent a changeover from NTC to Pt100 or Pt1000 becomes interesting for medium quantities. Particularly since platinum measuring resistors offer significant advantages over negative temperature coefficients.
Benefits and drawbacks of the different sensors
The platinum elements Pt100 and Pt1000 offer the advantage of meeting international standards (IEC 751 / DIN EN 60 751). Due to material- and production-specific criteria, a standardisation of semiconductor elements such as for example NTC is not possible. Because of this their interchange ability is limited. Further advantages of platinum elements are: better long-term stability and better behaviour over temperature cycles, a wider temperature range in addition to a high measurement accuracy and linearity. High measurement accuracy and linearity may also be possible with an NTC, but only in a very limited temperature range. While Pt100 and Pt1000 sensors in thin-film technology are ideal for temperatures up to 500�C, the typical NTC can be utilized for temperatures up to approx. 150�C.
Influence of the supply line on the measured value
The lead resistance affects the measurement value of 2-wire temperature sensors and must be taken into account. For copper cable with a cross-section of 0.22 mm2, the next guide value applies: 0.162 ?/m ? 0.42 �C/m for Pt100. Alternatively, a version with Pt1000 sensor can be chosen, with that your influence of the supply line (at 0.04 �C/m) is smaller by way of a factor of 10. The influence of the lead resistance compared to the base resistance R25 for an NTC measuring element is far less noticeable. Due to the sloping characteristic curve of the NTC, the influence at higher temperatures increases disproportionately in the event of higher temperatures.
Conclusion
In the event of high quantities, using NTC sensors continues to be justified due to cost reasons. For small to medim-sized lots, I would recommend the usage of a platinum measuring resistor. The usage of a Pt1000 manufactured in thin-film technology is a perfect compromise between your costs on the one hand and the measurement accuracy on another. In the following table, I’ve compiled the strengths and weaknesses of the various measuring elements in an overview for you personally:
Strengths and weaknesses of different sensors
NTC
Pt100
PT1000
Ni1000
KTY
Temperature range
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++
+
?
Accuracy
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++
++
+
?
Linearity
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++
++
+
++
Long-term stability
+
++
++
++
+
International standards
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++
+
?
Temperature sensitivity (dR/dT)
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?
+
+
+
Influence of the supply line
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?
+
+
+
Characteristic curves of Pt100, Pt1000, NTC, KTY and Ni1000
The characteristic curves of the various measuring elements is seen in the following overview:
Characteristic curves of the various sensors
Note
Our temperature sensors for the machine-building industry can be found with all common measuring elements. More info are available on the WIKA website.
Discover pressure gauge 10 bar about the functionality of resistance thermometers with Pt100 and Pt1000 sensors in the following video: