Specifications

The “bucket” concept is important, as it will help us differentiate the six

detector types:

Sample

Positive peak (also simply called peak)

Negative peak

Normal

Average

Quasi-peak

The first 3 detectors, sample, peak, and negative peak are easily understood

and visually represented in Figure 2-19. Normal, average, and quasi-peak

are more complex and will be discussed later.

Let’s return to the question of how to display an analog system as faithfully

as possible using digital techniques. Let’s imagine the situation illustrated in

Figure 2-17. We have a display that contains only noise and a single CW signal.

Sample detection

As a first method, let us simply select the data point as the instantaneous level

at the center of each bucket (see Figure 2-19). This is the sample detection

mode. To give the trace a continuous look, we design a system that draws

vectors between the points. Comparing Figure 2-17 with 2-20, it appears that

we get a fairly reasonable display. Of course, the more points there are in the

trace, the better the replication of the analog signal will be. The number of

available display points can vary for different analyzers. On ESA and PSA Series

spectrum analyzers, the number of display points for frequency domain traces

can be set from a minimum of 101 points to a maximum of 8192 points. As

shown in figure 2-21, more points do indeed get us closer to the analog signal.

Positive peak

Sample

Negative peak

One bucket

Figure 2-19. Trace point saved in memory is based on

detector type algorithm

Figure 2-20. Sample display mode using ten points to display the signal

of Figure 2-17

Figure 2-21. More points produce a display closer to an analog display