Tutorial 7
Keysight 34970A/34972A User’s Guide 275
Low-Level AC Measurement Errors 
When measuring AC voltages less than 100 mV, be aware that these 
measurements are especially susceptible to errors introduced by extraneous noise 
sources. An exposed test lead will act as an antenna and the internal DMM will 
measure the signals received. The entire measurement path, including the power 
line, act as a loop antenna. Circulating currents in the loop will create error 
voltages across any impedances in series with the instrument’s input. For this 
reason, you should apply low-level AC voltages to the instrument through 
shielded cables. You should also connect the shield to the input LO terminal. 
Be sure to minimize the area of any ground loops that cannot be avoided. A 
high-impedance source is more susceptible to noise pickup than a 
low-impedance source. You can reduce the high-frequency impedance of a source 
by placing a capacitor in parallel with the instrument’s input terminals. You may 
have to experiment to determine the correct capacitance value for your 
application. 
Most extraneous noise is not correlated with the input signal. You can determine 
the error as shown below. 
Voltage Measured =
Correlated noise, while rare, is especially detrimental. Correlated noise will always 
add directly to the input signal. Measuring a low-level signal with the same 
frequency as the local power line is a common situation that is prone to this error. 
You should use caution when switching high-level and low-level signals on the 
same module. It is possible that high-level charged voltages may be discharged 
onto a low-level channel. It is recommended that you either use two different 
modules or separate the high-level signals from the low-level signals with an 
unused channel connected to ground.