Creating and Downloading Waveform Files

Downloading Waveform Data

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Code Description—Open a Connection Session

1Assign the signal generator’s LAN hostname, IP address, or GPIB address to a character string.

This example uses the Agilent IO library’s iopen() SICL function to establish a LAN connection with the signal generator. The input argument, lan[hostname or IP address] contains the device, interface, or commander address. Change it to your signal generator host name or just set it to the IP address used by your signal generator. For example: “lan[999.137.240.9]

If you are using GPIB to connect to the signal generator, use the commented line in place of the first line. Insert the GPIB address based on your instrument setting, for example “gpib0,19”.

For the detailed information about the parameters of the SICL function iopen(), refer to the online “Agilent SICL User’s Guide for Windows.”

2Open a connection session with the signal generator to download the generated I/Q data.

The SICL function iopen() is from the Agilent IO library and creates a session that returns an identifier to id.

If iopen() succeeds in establishing a connection, the function returns a valid session id. The valid session id is not viewable, and can only be used by other SICL functions.

If iopen() generates an error before making the connection, the session identifier is always set to zero. This occurs if the connection fails.

To use this function in C++, you must include the standard header #include <sicl.h> before the main() function.

3–7

If id = 0, the program prints out the error message and exits the program.

2. Download the I/Q data.

The following code sends the SCPI command and downloads the generated waveform data to the signal generator.

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CodeDescription—Download the I/Q Data

8int bytesToSend;

9bytesToSend = numsamples*4;

10 char s[20];

11 char cmd[200];

12 sprintf(s, "%d", bytesToSend);

13 sprintf(cmd, ":MEM:DATA \"WFM1:FILE1\", #%d%d", strlen(s), bytesToSend); iwrite(id, cmd, strlen(cmd), 0, 0);

14 iwrite(id, iqbuffer, bytesToSend, 0, 0);

15 iwrite(id, "\n", 1, 1, 0);

16

Line

Code Description—Download the I/Q data

8

Define an integer variable (bytesToSend) to store the number of bytes to send to the signal generator.

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Agilent N518xA, E8663B, E44x8C, and E82x7D Signal Generators Programming Guide

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Agilent Technologies N5181A/82A, N5183A MXG, E8663B manual Line CodeDescription-Download the I/Q Data
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N5183A, N5183A MXG, E8663B, N5181A/82A specifications

Agilent Technologies is renowned for its innovative solutions in electronic test and measurement equipment. Among its offerings are several signal generators including the N5181A, N5182A, E8663B, and N5183A MXG. These models are distinguished not only by their performance but also by their versatility across various applications in communications, aerospace, and electronics.

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The N5183A MXG signal generator enhances the lineup with frequency coverage up to 6 GHz and advanced capabilities. It integrates various modulation capabilities while ensuring high signal integrity. Its architecture is tailored for both production test environments and research applications, providing users with the flexibility to adapt to changing testing requirements.

Common characteristics across these models include a user-friendly interface that simplifies configuration and operation. They are often equipped with LAN and USB interfaces for easy remote control and integration into automated test systems. The robustness of these generators allows them to perform reliably in challenging environments, making them essential tools in laboratories, manufacturing floors, and field testing scenarios.

In summary, Agilent's signal generators, including the N5181A, N5182A, E8663B, and N5183A MXG, represent a blend of advanced technology, flexibility, and precision. These instruments are vital in facilitating the evolution of cutting-edge communication technologies, ensuring that designers and engineers can confidently meet the demands of modern electronics.
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