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Measurement Tutorial
Minimizing Power Dissipation Effects
When measuring resistors designed for temperature measurements (or other resistive devices with large
temperature coefficients), be aware that the multimeter will dissipate some power in the DUT. The fol-
lowing table shows several examples.
Range Standard Test Current Power Dissipation in DUT
1 GΩ
500 nA
100 MΩ 500 nA
10 MΩ
500 nA
1 MΩ
5 µA
100 kΩ 10 µA
10 kΩ
100 µA
1 kΩ
1 mA
100 Ω
1 mA
If power dissipation is a problem, you should select a higher fixed range (all multimeter models) or, for the
34465A/70A, select the low power resistance measurement mode (see
[SENSe:]{RESistance|FRESistance}:POWer:LIMit[:STATe] (remote). The low power mode sources less test
current per measurement range than is normally sourced for standard resistance measurements, to
reduce power dissipation and self-heating in the DUT. The following table shows the various resistance
ranges, the standard test current delivered for 2- and 4-wire resistance measurements, and the low
power mode test current.
Range Standard Test Current Low Power Mode Test Current
1 GΩ
500 nA
100 MΩ 500 nA
10 MΩ
500 nA
1 MΩ
5 µA
100 kΩ 10 µA
10 kΩ
100 µA
1 kΩ
1 mA
100 Ω
1 mA
Errors in High Resistance Measurements
When you are measuring large resistances, significant errors can occur due to insulation resistance and
surface cleanliness. You should take the necessary precautions to maintain a "clean" high–resistance sys-
tem. Test leads and fixtures are susceptible to leakage due to moisture absorption in insulating materials
and "dirty" surface films. Nylon and PVC are relatively poor insulators (10
13
insulators (10
Ω). Leakage from nylon or PVC insulators can easily contribute a 0.1% error when meas-
uring a 1 MΩ resistance in humid conditions.
166
2.5 µW
2.5 µW
2.5 µW
25 µW
10 µW
100 µW
1 mW
100 µW
500 nA
500 nA
500 nA
5 µA
5 µA
10 µA
100 µA
100 µA
Keysight Truevolt Series Operating and Service Guide
Resistance
(front panel), or
9
Ω) when compared to PTFE
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