Agilent Technologies 8560E User Manual page 322

Programming
Math Functions
E 2
XAMPLE
10 ! PUT TRACES ON SCREEN
20 INTEGER Atrace(1:601)
30 FOR I=1 TO 601
40 Atrace(I)=300
50 NEXT I
60 OUTPUT 718;"IP;LG 10DB;SNGLS;TS;"
70 OUTPUT 718 USING "#,K,W,601(W) ,K";"TDF
A;TRA#A",1202,Atrace(*),";"
80 OUTPUT 718 USING "#,K,W,601(W) ,K";"TDF
A;TRB#A",1202,Atrace(*),";"
90 OUTPUT 718;"AMB ON;"
100 PRINT "PRESS CONTINUE"
110 PAUSE
120 OUTPUT 718;"LN;SNGLS;TS;"
130 OUTPUT 718 USING "#,K,W,601(W) ,K";"TDF
A;TRA#A",1202,Atrace(*),";"
140 OUTPUT 718 USING "#,K,W,601(W) ,K";"TDF
A;TRB#A",1202,Atrace(*),";"
150 OUTPUT 718;"AMB ON;"
160 PAUSE
170 END
Trace Data Limits
The displayed amplitude of each trace element falls in one of 601
vertical data points. See Figure 5-10. There are an additional 10 points
of overrange. The spectrum analyzer clips results that exceed these
limits. The overrange is equal to one-sixth of a division above the
reference level. Also, the same clipping algorithm is applied to
correction data in a trace (for example, correction data that you enter
into trace B). For example, if the reference level is 0 dBm, the scale is
equal to 10 dB per division; therefore, the correction values must be
within the range of +1.66 dBm to −100.00 dBm (one-sixth of 10 dB is
equal to 1.66 dB).
322 Chapter 5