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CN0507用户指南

消耗积分:2 | 格式:pdf | 大小:2.64MB | 2021-03-23

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This version (14 Jan 2021 05:19) was approved by Robin Getz.The Previously approved version (07 Jan 2020 09:17) is available.Diff

CN-0507: A Complete 2-Port Network Analyzer on an Arduino Shield

This reference design implements a complete 2-Port radio frequency (RF) Network Analyzer using a low-cost zero intermediate frequency (ZIF) architecture in an Arduino form factor, which is designed to plug into EVAL-ADICUP3029.


Setting Up the Hardware

  1. Mount the CN-0507 shield over the EVAL-ADICUP3029.
  2. Connect the EVAL-ADICUP3029 to the Laptop using a micro USB cable.
  3. Connect a 6V DC power supply capable of supplying 1.5A to the CN-0507

Software GUI Setup

Firmware

To use the software GUI, the firmware must first be loaded onto the EVAL-ADICUP3029.

  1. Download the hex file from the CN-0507 product page.
  2. If running an operating system older than Windows 10, install serial driver as in 1. Install mBed windows serial driver...
  3. You should see DAPLINK in your list of drives.
  4. Copy the hex file to the DAPLINK drive to load the firmware to the EVAL-ADICUP3029. Note that the DAPLINK drive will disappear for a moment, then reappear after loading the firmware.

GUI

  1. Download the GUI zip archive from the CN-0507 product page.
  2. Extract the zip file to your PC.
  3. Look inside the extracted files and launch the adi-vna-app.exe executable.

The Software GUI

The included software GUI can be used for performing S-parameter measurements using the CN-0507 shield. The important parts of software GUI is shown in this figure.

How to use the GUI

Connection

After launching the software GUI. The connection window will be first shown. It lists all the available serial ports. To start using the GUI, choose the COM port of the EVAL-ADICUP3029 used. Have the baud rate set to the default, 115200, then click Connect . The connection window will automatically close after a successful connection.

Performing a Sweep

First, make sure that port 1 and port 2 of the CN-0507 shield is already connected to the DUT. To perform a sweep, just click the Start Sweep button. This figure shows the magnitude plot from an open sweep with the default sweep setting values.

The default settings have it set at 25 steps, with a start frequency of 1700 MHz, and a stop frequency of 3400 MHz. This range is set because this is the frequency range that the CN-0507 can handle. The number of steps can be chosen between the available value of 25, 50, 100, 500, and 1000 steps. The expected time per sweep is indicated at the right of the steps box. The S-parameters that will be plotted may also be selected at the Sweep Settings card. It is recommended to have all the S-parameters checked since it is also possible to hide a plot by clicking its legend at the top. By default, the magnitude plot is shown. To view the phase plot, click on the Phase option at the top.

The Y-axis of the magnitude plot view can be adjusted using the Adjust Y buttons in Plot Settings located on the lower right of the GUI. Below that is the Export Plots button which will save the magnitude and phase values into a standard touchstone .S2P file.

Averaging multiple sweeps can be enabled by checking the Averaging checkbox. The Sweep Count value determines how many sweeps to average. Take note that averaging multiple sweeps will take a longer time to finish.

A calibrated sweep can also be performed by checking the Use Calibration checkbox. The appropriate calibration file must also be loaded after clicking the Choose File button. The sweep settings (start frequency, stop frequency, step size) of the calibration file must be the same with the sweep settings that will be performed. The next section discusses how to generate a calibration file.

Generating a Calibration File

Generating a calibration file is necessary to perform calibrated sweeps. First, click the menu button located in the upper right corner of the GUI. Select the Calibration option to open the calibration window.

The first tab, Calibration Constants, contains calibration kit constants and the sweep settings of the calibration file to be generated. These constants must be changed depending on the value of the calibration kit. A previously generated calibration file can also be loaded to fill the constants by clicking Constants→Load From File. When all the fields are filled out correctly, click the Use Calibration Constants button then go to the next tab.

The second tab, DC Offsets is used for the IQ demodulator DC offset correction. Click the Measure button to measure the DC offset voltages of the IQ demodulators. Wait for it to finish. After it is performed, go to the next tab.

The third tab, Calibrate Port 1 is for calibrating port 1. Follow the instructions shown in that tab. For reflection measurements, connect an open terminator to port 1 then click the corresponding Calibrate button. Do this again for short and 50-ohm load terminators. For the isolation measurement, connect a 50-ohm load terminator on each port then click the corresponding Calibrate button. For the through measurement, connect port 1 and port using a thru then click the corresponding Calibrate button. Do this again for port 2 on the fourth tab, Calibrate Port 2. After all of these are performed, go to the fifth tab.

The fifth tab, Save is for saving all the performed calibration measurements with the sweep settings and the calibration constants used to a single file. After the things done on the previous tabs, the badges below Port 1 Calibration and Port 2 Calibration must be Ready and color green. With this, click the Save Calibration Values to save it into a JSON file. This file can now be used to perform a calibrated sweep.

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