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A&D Series 57ZZ Manual do Utilizador Página 13

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Learning a new skill often involves learning a new
vocabulary. This idea holds true for learning how to
use an oscilloscope. This section describes some
useful measurement and oscilloscope performance
terms.
Measurement Terms
The generic term for a pattern that repeats over time
is a wave – sound waves, brain waves, ocean waves,
and voltage waves are all repeating patterns. An
oscilloscope measures voltage waves. One cycle of a
wave is the portion of the wave that repeats. A wave-
form is a graphic representation of a wave. A voltage
waveform shows time on the horizontal axis and
voltage on the vertical axis.
Waveform shapes tell you a great deal about a signal.
Any time you see a change in the height of the wave-
form, you know the voltage has changed. Any time
there’s a flat horizontal line, you know that there’s
no change for that length of time. Straight diagonal
lines mean a linear change – rise or fall of voltage at
a steady rate. Sharp angles on a waveform mean
sudden change. Figure 13 shows some common
waveforms and Figure 14 shows some common
sources of waveforms.
Types of Waves
You can classify most waves into these types:
Sine waves
Square and rectangular waves
Triangle and sawtooth waves
Step and pulse shapes
Complex waves
Sine Waves
The sine wave is the fundamental wave shape for
several reasons. It has harmonious mathematical
properties – it’s the same sine shape you may have
studied in high school trigonometry class. The
power line voltage at your wall outlet varies as a sine
wave. Test signals produced by the oscillator circuit
of a signal generator are often sine waves. Most AC
power sources produce sine waves. (AC stands for
alternating current, although the voltage alternates
too. DC stands for direct current, which means a
7
Oscilloscope Terminology
Figure 13. Common waveforms.
Figure 14. Sources of common waveforms.
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