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Number 1671
Application Note Low Current Measurements
Series
Basic Current Measurements tions, errors induced by the voltage burden (or drop) across the
entire ammeter model, and the uncertainty of the meter itself.
In a typical circuit (see Figure 1a), a source causes a current (I)
to flow through the circuit. The goal of any electrical current With measurements of currents in the normal range (typically
measurement is to insert an ammeter in series with the circuit so >1mA), errors caused by ammeter voltage burden, shunt cur
that the current measured on the ammeter is identical to the cur rents, and noise current are often small enough to be ignored. In
rent originally flowing through the circuit. To do so, the circuit these cases, the displayed current reading is simply equal to the
is broken between points A and B, and the meter is connected actual current plus or minus inherent meter uncertainty, (UM).
as shown in Figure 1b. In the ideal case, the meter would have Meters designed to measure these normal currents generally con
absolutely no effect on the circuit. For practical measurements, sist of a voltmeter circuit that measures the voltage drop across a
however, several error sources may be present. These error shunt resistor inserted in the series with the circuit being meas
sources can result in substantial uncertainty in the measurement, ured. (See the discussion on shunt ammeters that follows.) The
as we will now discuss. reading provided by the voltmeter is thus directly proportional to
the current flow.
Any ammeter can be modeled to consist of the three separate
circuit elements shown in Figure 1b: a shunt resistance (RSH) Unfortunately, the voltage burden (input voltage drop) pro
caused by the input cable connected to the meter; a generator of duced by such meters usually ranges from 200mV to about 2V.
unwanted current (IC), which represents mainly currents gener This voltage drop is sufficient to cause errors with current meas
ated by interconnections; and an internal resistance (R M), which urements below the normal range. To avoid such large voltage
includes series cable resistance. Note that R M is in series with an drops, picoammeters and electrometers use a high gain amplifier
ideal ammeter (MI), having no resistance or current source of with negative feedback for the input stage. As a result, the voltage
its own. burden is greatly reduced--on the order of 200