User Manual
Table Of Contents
- General Safety Summary
- Introduction of SDG2000X
- Quick Start
- Front Panel Operations
- To Set Sine Waveform
- To Set Square Waveform
- To Set Ramp Waveform
- To Set Pulse Waveform
- To Set Noise Waveform
- To Set DC Waveform
- To Set Arbitrary Waveform
- To Set Harmonic Function
- To Set Modulation Function
- To Set Sweep Function
- To Set Burst Function
- To Store and Recall
- To Set Utility Function
- Examples
- Example 1: Generate a Sine Waveform
- Example 2: Generate a Square Waveform
- Example 3: Generate a Ramp Waveform
- Example 4: Generate a Pulse Waveform
- Example 5: Generate a Noise
- Example 6: Generate a DC Waveform
- Example7: Generate a Linear Sweep Waveform
- Example 8: Generate a Burst Waveform
- Example 9: Generate an AM Modulation Waveform
- Example 10: Generate a FM Modulation Waveform
- Example 11: Generate a PM Modulation Waveform
- Example 12: Generate a FSK Modulation Waveform
- Example 13: Generate an ASK Modulation Waveform
- Example 14: Generate a PSK Modulation Waveform
- Example 15: Generate a PWM Modulation Waveform
- Example 16: Generate a DSB-AM Modulation Waveform
- Troubleshooting
- Service and Support
- Appendix
SIGLENT
SDG2000X User Manual 67
Arb
PWM Freq
Set the modulating waveform frequency. Frequency
range: 1mHz~1MHz (internal source only).
To Set Pulse Width/Duty Deviation
Width Deviation represents the variation of the modulated waveform pulse
width relative to the original pulse width. Press Width Dev to highlight the
parameter, and use the numeric keyboard or arrow keys and knob to input the
desired value, as shown in the Figure 2-32.
Figure 2-32 Width Deviation Setting Interface
The width deviation cannot exceed the current pulse width.
The width deviation is limited by the minimum pulse width and current
edge time setting.
Duty Deviation represents the variation (%) of the modulated waveform duty
relative to the original duty. Press Duty Dev to highlight the parameter, and
then use the numeric keyboard or arrow keys and knob to input the desired
value, as shown in the Figure 2-33.