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Chapter 3
Digitizer Basics
3-8
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Understanding the Probe and Its Effects
on Your Waveform
on Your Waveform
Signals travel from the tip of the probe to the input amplifier and are then
digitized by the ADC. This signal path makes the probe an important
electrical system component that can severely affect the accuracy of the
measurement. A probe can potentially influence measured amplitude and
phase, and the signal can pick up additional noise on its way to the input
stage. Several types of probes are available including passive, active,
and current probes.
digitized by the ADC. This signal path makes the probe an important
electrical system component that can severely affect the accuracy of the
measurement. A probe can potentially influence measured amplitude and
phase, and the signal can pick up additional noise on its way to the input
stage. Several types of probes are available including passive, active,
and current probes.
Passive Probe
The passive probe is the most widely used general-purpose oscilloscope
probe. Passive probes are specified by bandwidth (or rise time), attenuation
ratio, compensation range, and mechanical design aspects. Probes with
attenuation, X10, X100, or X1000, have a tunable capacitor that can reduce
capacitive effects at the input. The ability to cancel or minimize effective
capacitance improves the probe’s bandwidth and rise time. Figure 3-6
shows a typical X10 probe model. You should adjust the tunable capacitor,
C
probe. Passive probes are specified by bandwidth (or rise time), attenuation
ratio, compensation range, and mechanical design aspects. Probes with
attenuation, X10, X100, or X1000, have a tunable capacitor that can reduce
capacitive effects at the input. The ability to cancel or minimize effective
capacitance improves the probe’s bandwidth and rise time. Figure 3-6
shows a typical X10 probe model. You should adjust the tunable capacitor,
C
p
, to obtain a flat frequency response. C
p
is the probe capacitance, R
p
is
the probe resistance, C
in
is the input capacitance, R
in
is the input resistance.
Figure 3-6. Typical X10 Probe
Probe Compensation
Adjustment
One-tenth of Signal
(1 V
pk-to-pk
) at Input
C
c
= Lumped Cable
Capacitance
X10 Probe
Digitizer Input
20 pF
C
in
x
pF C
p
10 V
pk-to-pk
Signal