National Instruments NI 5102 用户手册
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Digitizer Basics
This chapter explains basic information about using digitizers, including
important terminology and use of the probe.
important terminology and use of the probe.
Understanding Digitizers
To understand how digitizers work, you should be familiar with the
Nyquist theorem and how it affects analog bandwidth and sample rate.
You should also understand vertical sensitivity, analog-to-digital converter
(ADC) resolution, record length, and triggering options.
Nyquist theorem and how it affects analog bandwidth and sample rate.
You should also understand vertical sensitivity, analog-to-digital converter
(ADC) resolution, record length, and triggering options.
Nyquist Theorem
The Nyquist theorem states that a signal must be sampled at least twice
as fast as its bandwidth in order to accurately reconstruct the waveform;
otherwise, the high-frequency content will alias at a frequency inside
the spectrum of interest (passband). An alias is a false lower frequency
component that appears in sampled data acquired at too low a sampling
rate. Figure 3-1 shows a 5 MHz sine wave digitized by a 6 MS/s ADC.
The dotted line indicates the aliased signal recorded by the ADC at that
sample rate.
as fast as its bandwidth in order to accurately reconstruct the waveform;
otherwise, the high-frequency content will alias at a frequency inside
the spectrum of interest (passband). An alias is a false lower frequency
component that appears in sampled data acquired at too low a sampling
rate. Figure 3-1 shows a 5 MHz sine wave digitized by a 6 MS/s ADC.
The dotted line indicates the aliased signal recorded by the ADC at that
sample rate.
Figure 3-1. Aliased Sine Wave When Waveform is Under Sampled
The 5 MHz frequency aliases back in the passband, falsely appearing as if
it were a 1 MHz sine wave. To prevent aliasing in the passband, a lowpass
filter limits the frequency content of the input signal above the Nyquist rate.
it were a 1 MHz sine wave. To prevent aliasing in the passband, a lowpass
filter limits the frequency content of the input signal above the Nyquist rate.
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