User's Manual
Table Of Contents
- Title page
- Table of Contents
- General Safety Summary
- Preface
- Getting Started
- Operating Basics
- Reference
- Reference
- Menu Structures
- The Setup Menu Screen
- The Graphical Waveform Editor
- The Pattern Editor
- Quick Editing
- The Table Editor
- The Equation Editor
- The Sequence Editor
- The APPL Menu
- The UTILITY Window
- External Keyboards
- Setting General Purpose Knob Direction
- Formatting a Floppy Disk
- Displaying Disk Usage
- Screen Display Enable/Disable
- Focused Color
- Displaying Instrument Status
- Internal Clock (Date and Time)
- Resetting the Instrument
- Connecting to a GPIB Network
- Ethernet Networking
- Hardcopy
- Calibration and Diagnostics
- Upgrading the System Software
- Capturing Waveforms
- Waveform Programming Language
- Command Descriptions
- Programming Examples
- File Conversion
- File Management
- FG Mode
- Waveform Mixing Mode
- Synchronous Operation Mode (AWG710B only)
- Appendices
- Appendix A: Specifications (AWG710B)
- Appendix A: Specifications (AWG710)
- Appendix B: Performance Verification (AWG710B)
- Conventions
- Self Tests
- Performance Tests
- Operating Mode Tests
- Amplitude and Offset Accuracy Tests (Normal Out), (except option 02)
- Amplitude, Offset Accuracy and Rise Time Tests (Direct DA Out), (except option 02)
- Amplitude, Offset Accuracy and Rise Time Tests (for option 02)
- Pulse Response Tests (Normal Out), (except option 02)
- Trigger Input Tests
- Event Input and Enhanced Mode Tests
- External Clock Input and VCO Out Output Tests
- VCO OUT Output Frequency and 10 MHz Reference Input Tests
- Marker Output Tests
- Synchronous Operation Tests
- Appendix B: Performance Verification (AWG710)
- Conventions
- Self Tests
- Performance Tests
- Operating Mode Tests
- Amplitude and Offset Accuracy Tests (Normal Out), (except option 02)
- Amplitude, Offset Accuracy and Rise Time Tests (Direct DA Out), (except option 02)
- Amplitude, Offset Accuracy and Rise Time Tests (for option 02)
- Pulse Response Tests (Normal Out), (except option 02)
- Trigger Input Tests
- Event Input and Enhanced Mode Tests
- 1/4 Clock Frequency and 10 MHz Reference Input Tests
- Marker Output Tests
- Appendix C: Inspection and Cleaning
- Appendix D: Sample Waveforms
- Appendix E: File Transfer Interface Outline
- Appendix F: Miscellaneous
- Appendix G: Sequence File Text Format
- Index
Programming Examples
3-212 AWG710&AWG710B Arbitrary Waveform Generator User Manual
The MOD02.WFM signal is 0.5 if the marker1 signal of the MOD01.WFM is equal
to the marker2 signal, otherwise the signal value is 0.
The results are shown in Figure 3-67.
Figure 3-67: Source waveform and those generated by the Example 4 equation
Example 5
The following example shows how to use filter functions. There are four digital
filter functions: lpf(), hpf(), bpf() and brf(), which are the same as those provided
in the digital filter dialog box of the waveform editor. Refer to Digital Filter... on
page 3-78 for more information on the filter arguments and the digital filter
characteristics.
size = 2000
hf = 45e6 ' Cutoff frequency High: 1 Hz to 50 MHz
lf = 5e6 ' Cutoff frequency Low
: 1 Hz to 50 MHz
taps = 97 ' Taps: 3 to 101
att = 30 ' Attenuation: 21 dB to 100 dB
"NOISE.WFM" = noise()
"NOISE.WFM" = norm("NOISE.WFM")
"N1.WFM" = lpf("NOISE.WFM", lf, taps, att)
"N2.WFM" = hpf("NOISE.WFM", hf, taps, att)
"N3.WFM" = bpf("NOISE.WFM", lf, hf, taps, att)
"N4.WFM" = brf("NOISE.WFM", lf, hf, taps, att)
MOD.WFM MOD01.WFM MOD02.WFM