User Manual
Table Of Contents
- Safety Notices
- The Introduction of DG3000 Series
- Getting Started
- Operating Your Generator
- Application & Examples
- Example 1: To Generate a Sine Wave
- Example 2: To Generate a Square Wave
- Example 3: To Generate a Ramp Wave
- Example 4: To Generate a Pulse Wave
- Example 5: To Generate a Noise Wave
- Example 6: To Generate an Arbitrary Waveform
- Example 7: To Create an Arbitrary Waveform
- Example 8: To Generate an AM Waveform
- Example 9: To Generate an FSK Waveform
- Example 10: To Generate a PWM waveform
- Example 11: To Generate Linear Sweep
- Example 12: To Generate a Burst Waveform
- Prompt messages & troubleshooting
- Specifications
- Appendix
- Index
RIGOL
© 2006 RIGOL Technologies, Inc.
User’s Guide for DG3000 Series
2-76
2. RS232 Setting
Choose RS232 I/O. Make sure that the Baud Rate, Parity and Signal Exchange
Setting matches that of the computer used. Besides, make sure that the RS232
cable used is connected correctly. I/O choice is stored in the Non-Volatile Memory,
and will show when the power is on.
Press Utility I/O Setup RS232 , to enter the following interface.
Figure 2-87 Table 2-33 The Menu Explanations of RS232 Setup
Baud Rate
Set the RS232 Baud Rate. Make sure that the Baud Rate matches that of the
computer. The optional rates are: 2400, 4800, 9600, 19200, 38400, 57600 and
115200. The default setting is 9600. Current choice is stored in the Non-Volatile
Memory.
Parity/#Bits
Set the Parity of RS232. Make sure that the parity matches that of the computer. The
choices are: Odd/ 7 bits, Even/ 7 bits and No Parity/ 8 bits. The default setting is No
Parity/ 8 data bits. Current choice is stored in the Non-Volatile Memory.
Function
Menu
Settings
Explanation
Baud Rate
Set the RS232 Baud Rate
Parity/
#Bits
Set the RS232 Parity and bit