Chapter 9 -- Measurement Of Small Current Signals; Overview; Problem Description; Measurement System Model And Physical Limitations - Gamry Reference 3000 Operator's Manual

Chapter 9 -- Measurement of Small Current Signals

Overview

The Gamry Instruments Reference 3000 is a high performance measurement instrument used for all types of
electrochemical testing. Unlike many other electrochemical instruments, it offers outstanding performance for
both tests with small current signals and high impedances and for tests involving large currents and very small
impedances.
Chapter 10 is a discussion of the latter problem, when currents are large, voltages and cell impedances are
small, and inductance limits measurements. These measurements include those encountered in research on:
Batteries
•
Fuel cells
•
Super-capacitors
•
Problems in the measurement of very small currents are discussed here. Examples of this type of testing
include:
Cells for testing painted metal samples
•
Cells for testing corrosion of bare metals
•
Microelectrode cells
•
Most cells for fast CV (cyclic Voltammetry)
•
Super-capacitors
•

Problem Description

The Reference 3000 is a very sensitive scientific instrument. It can theoretically resolve current changes as small
as 100 femoamp (1 x 10
600,000 electrons per second!
The small currents measured by the Reference 3000 place demands on the instrument, the cell, the cables and
the experimenter. Many of the techniques used in higher current electrochemistry must be modified when
used to measure pA currents. In many cases, the basic physics of the measurement must be considered.
This chapter will discuss the limiting factors controlling low current measurements. It will include hints on cell
and system design. The emphasis will be on EIS (Electrochemical Impedance Spectroscopy), a highly
demanding application for the Reference 3000.

Measurement System Model and Physical Limitations

To get a feel for the physical limits implied by very sensitive current measurements, consider the equivalent
circuit shown in Figure 9-1. We are attempting to measure the cell impedance given by Z
This model is valid for analysis purposes even though the real Reference 3000 circuit topology differs
significantly.
Chapter 9 -- Measurement of Small Current Signals--Overview
-13 amps). To place this current in perspective, 100 fA represents the flow of about
9 - 1
.
cell