Thermoelectric Potentials - Keithley SourceMeter 2790 Reference Manual

D-2
Measurement considerations
Low-level voltage measurements made using the Model 2790 can be adversely affected by
various types of noise or other unwanted signals that can make it very difficult to obtain
accurate voltage readings. Some of the phenomena that can cause unwanted noise include
thermoelectric effects (thermocouple action), source resistance noise, magnetic fields, and
radio frequency interference. The following paragraphs discuss the most important of
these effects and ways to minimize them.
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Thermoelectric potentials

Thermoelectric potentials (thermal EMFs) are small electric potentials generated by
differences in temperature at the junction of dissimilar metals. The following paragraphs
discuss how such thermals are generated and ways to minimize their effects.
Thermoelectric coefficients
As shown in
lar materials involved. Best results are obtained with clean copper-to-copper connections
as indicated in the table.
Table D-1
Material thermoelectric coefficients
Copper-Copper
Copper-Silver
Copper-Gold
Copper-Cadmium/Tin
Copper-Lead/Tin
Copper-Kovar
Copper-Silicon
Copper-Copper Oxide
For comprehensive information on low-level measurements, see the "Low Level
Measurements" handbook, which is available from Keithley.
Table D-1, the magnitude of thermal EMFs generated depends on the particu-
Material Thermoelectric potential
0.2µV/°C
0.3µV/°C
0.3µV/°C
0.3µV/°C
1–3µV/°C
40µV/°C
400µV/°C
1000µV/°C
Model 2790 SourceMeter
®
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