One thing near and dear to us here at the Power and
Energy Division is making accurate current measurements. What exactly is
current? It’s basically the flow of electric charge per unit of time. In a
conductor it’s the flow of electrons through it per unit of time.
The ampere is the fundamental
unit of current in coulombs per second, which equates to 6.241x1018
electrons per second. Accurate current measurement is one of the core values of
virtually all of our products. Some of the precision SMU products can measure down
to femtoamp (fA) levels (10-15 amps). This is where we tend to muse
that we’re getting down to the levels where we’re virtually counting the
individual electrons going by.
While there are a few different ways of measuring
current, by far the most common is to measure the voltage drop across a
resistive shunt. With careful design this provides the most accurate means of
current measurement. There are a lot of non-obvious factors that can introduce
unexpected errors that many are not aware of, leading them to believe they have
better accuracy than what it really is. A good discussion of what it takes to
truly make accurate current measurements was covered in a previous posting “How
to make more accurate current measurements”(click here to review). We go
through great pains in addressing these things in our products in order to
provide accurate and repeatable measurements.
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