13-10
Disk Commands
MSTore (Obsolete)
<X display
range 1...n>
The number of X display range columns (n) depends on the number of sources
being stored. The X display range is the X-axis duration of the waveform that
is displayed. For time domain waveforms, it is the duration of time across the
display. If the value is zero then no data has been acquired.
<X display
origin 1...n>
The number of X display origin columns (n) depends on the number of sources
being stored. The X display origin is the X-axis value at the left edge of the
display. For time domain waveforms, it is the time at the start of the display.
This value is treated as a double precision 64-bit floating point number. If the
value is zero then no data has been acquired.
<X increment
1...n>
The number of X increment columns (n) depends on the number of sources
being store. The X increment is the duration between data points on the X axis.
For time domain waveforms, this is the time between points. If the value is zero
then no data has been acquired.
<X origin
1...n>
The number of X origin columns (n) depends on the number of sources being
store. The X origin is the X-axis value of the first data point in the data record.
For time domain waveforms, it is the time of the first point. This value is treated
as a double precision 64-bit floating point number. If the value is zero then no
data has been acquired.
<X units 1...n>
The number of X units columns (n) depends on the number of sources being
store. The X units is the unit of measure for each time value of the acquired data.
<Y display
range 1...n>
The number of Y display range columns (n) depends on the number of sources
being store. The Y display range is the Y-axis duration of the waveform which
is displayed. For voltage waveforms, it is the amount of voltage across the
display. If the value is zero then no data has been acquired.
<Y display
origin 1...n>
The number of Y display origin columns (n) depends on the number of sources
being store. The Y-display origin is the Y-axis value at the center of the display.
For voltage waveforms, it is the voltage at the center of the display. If the value
is zero then no data has been acquired.
<Y increment
1...n>
The number of Y increment columns (n) depends on the number of sources
being store. The Y increment is the duration between Y-axis levels. For voltage
waveforms, it is the voltage corresponding to one level. If the value is zero
then no data has been acquired.
<Y origin
1...n>
The number of Y origin columns (n) depends on the number of sources being
store. The Y origin is the Y-axis value at level zero. For voltage waveforms, it
is the voltage at level zero. If the value is zero then no data has been acquired.
<Y units 1...n>
The number of Y units columns (n) depends on the number of sources being
store. The Y units is the unit of measure of each voltage value of the acquired
waveform.
Содержание Infiniium 8000A
Страница 1: ...Agilent Technologies Infiniium 8000A Programmer s Reference ...
Страница 2: ......
Страница 20: ...Contents 16 ...
Страница 21: ...1 Introduction to Programming ...
Страница 43: ...2 LAN and GPIB Interfaces ...
Страница 53: ...3 Message Communication and System Functions ...
Страница 58: ...3 6 ...
Страница 59: ...4 Status Reporting ...
Страница 64: ...4 6 Status Reporting Status Reporting Data Structures Figure 4 2 Status Reporting Data Structures ...
Страница 78: ...4 20 Figure 4 3 Status Reporting Decision Chart ...
Страница 79: ...5 Programming Conventions ...
Страница 84: ...5 6 Programming Conventions The Command Tree Figure 5 1 Command Tree ...
Страница 85: ...5 7 Programming Conventions The Command Tree Figure 5 2 Command Tree Continued ...
Страница 86: ...5 8 Programming Conventions The Command Tree Figure 5 3 Command Tree Continued ...
Страница 87: ...5 9 Programming Conventions The Command Tree Figure 5 4 Command Tree Continued ...
Страница 88: ...5 10 Programming Conventions The Command Tree Figure 5 5 Command Tree Continued ...
Страница 89: ...5 11 Programming Conventions The Command Tree Figure 5 6 Command Tree Continued ...
Страница 94: ...5 16 ...
Страница 95: ...6 Sample Programs ...
Страница 149: ...7 Acquire Commands ...
Страница 176: ...7 28 Acquire Commands SRATe AUTO ...
Страница 177: ...8 Bus Commands ...
Страница 187: ...9 Calibration Commands ...
Страница 195: ...10 Channel Commands ...
Страница 223: ...11 Common Commands ...
Страница 247: ...12 Digital Commands ...
Страница 254: ...12 8 ...
Страница 255: ...13 Disk Commands ...
Страница 300: ...13 46 Disk Commands STORe Obsolete ...
Страница 301: ...14 Display Commands ...
Страница 322: ...14 22 ...
Страница 323: ...15 External Trigger Commands ...
Страница 343: ...16 Function Commands ...
Страница 382: ...16 40 ...
Страница 383: ...17 Hardcopy Commands ...
Страница 391: ...18 Histogram Commands ...
Страница 403: ...19 InfiniiScan ISCan Commands ...
Страница 421: ...20 Limit Test Commands ...
Страница 429: ...21 Marker Commands ...
Страница 452: ...21 24 ...
Страница 453: ...22 Mask Test Commands ...
Страница 499: ...23 Measure Commands ...
Страница 636: ...23 138 Measure Commands VUPPer ...
Страница 637: ...24 Pod Commands ...
Страница 642: ...24 6 ...
Страница 643: ...25 Root Level Commands ...
Страница 645: ...25 3 STORe SETup STORe WAVeform TER Trigger Event Register VIEW ...
Страница 674: ...25 32 ...
Страница 675: ...26 Self Test Commands ...
Страница 679: ...27 System Commands ...
Страница 694: ...27 16 ...
Страница 695: ...28 Time Base Commands ...
Страница 708: ...28 14 ...
Страница 709: ...29 Trigger Commands ...
Страница 822: ...29 114 ...
Страница 823: ...30 Waveform Commands ...
Страница 893: ...31 Waveform Memory Commands ...
Страница 902: ...31 10 ...
Страница 903: ...32 Error Messages ...
Страница 914: ...32 12 ...