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resources:eval:dpg:ad9154-ebz [21 Jun 2017 16:39] – Bailey Meyer | resources:eval:dpg:ad9154-ebz [28 Jul 2017 20:29] – Bailey Meyer | ||
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===== Hardware Setup ===== | ===== Hardware Setup ===== | ||
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- | | Figure 1. AD9154-EBZ Lab Block Diagram | + | |
- | {{: | + | | Figure 1. AD9154-EBZ Lab Block Diagram |
- | | Figure 2. Top view of AD9154-EBZ | + | </ |
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+ | | Figure 2. Top view of AD9154-EBZ | ||
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Connect +5.0V to P5, GND to P6. A low phase noise high frequency clock source should be connected to the SMA connector J1 (CLK_IN). A spectrum analyzer should be connected to the SMA connector J17. Connect J4, J5, and J7 to an oscilloscope. The evaluation board connects to the DPG3 through the connector P4. The PC should be connected to the EVB using the mini-USB connector XP2. Figure 1 shows a block diagram of the set-up. | Connect +5.0V to P5, GND to P6. A low phase noise high frequency clock source should be connected to the SMA connector J1 (CLK_IN). A spectrum analyzer should be connected to the SMA connector J17. Connect J4, J5, and J7 to an oscilloscope. The evaluation board connects to the DPG3 through the connector P4. The PC should be connected to the EVB using the mini-USB connector XP2. Figure 1 shows a block diagram of the set-up. | ||
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- | Ensure that the {{: | + | Ensure that the {{: |
<WRAP center> | <WRAP center> | ||
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3. Open DPGDownloader. (Start > All Programs > Analog Devices > DPG > DPGDownloader). DPGDownloader GUI will come up. Select the Port configuration QBF 1X8 85G 425M. The configuration progress bar will then show a moving green indication. Once port configuration is complete, select “Add Generated Waveform” and “Single Tone." Set Data Rate to 750 MHz, Desired Frequency to 112 MHz, Amplitude to -1.0 dBFS, uncheck unsigned, check Generate Complex Data (I&Q). Under Data Playback, select I data for DAC 0 and DAC2, and Q data for DAC 1 and DAC3. These settings should match those in the DPGDownloader panel in Figure 8. | 3. Open DPGDownloader. (Start > All Programs > Analog Devices > DPG > DPGDownloader). DPGDownloader GUI will come up. Select the Port configuration QBF 1X8 85G 425M. The configuration progress bar will then show a moving green indication. Once port configuration is complete, select “Add Generated Waveform” and “Single Tone." Set Data Rate to 750 MHz, Desired Frequency to 112 MHz, Amplitude to -1.0 dBFS, uncheck unsigned, check Generate Complex Data (I&Q). Under Data Playback, select I data for DAC 0 and DAC2, and Q data for DAC 1 and DAC3. These settings should match those in the DPGDownloader panel in Figure 8. | ||
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| {{ {{ : | | {{ {{ : | ||
| Figure 8. DPGDownloader settings | | Figure 8. DPGDownloader settings | ||
+ | </ | ||
4. Click Download ({{: | 4. Click Download ({{: | ||
5. Here is what you will see at the output of DAC0 on the Spectrum Analyzer. \\ \\ | 5. Here is what you will see at the output of DAC0 on the Spectrum Analyzer. \\ \\ | ||
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| Figure 9. DAC Output Spectrum Analyzer Display | | Figure 9. DAC Output Spectrum Analyzer Display | ||
+ | </ | ||
6. Here’s what you will see on DAC1, DAC2, and DAC3 on the scope. | 6. Here’s what you will see on DAC1, DAC2, and DAC3 on the scope. | ||
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- | {{: | + | | {{ {{ : |
- | | Figure 10. DAC Outputs Scope Display | | + | | Figure 10. DAC Outputs Scope Display |
+ | </ | ||
=== Using the SPIPro software === | === Using the SPIPro software === | ||
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2. On your lab computer, open the AD9154 SPIPro application (Start > All Programs > Analog Devices > AD9154 > AD9154 SPI). You will see the GUI shown in Figure 11 come up. | 2. On your lab computer, open the AD9154 SPIPro application (Start > All Programs > Analog Devices > AD9154 > AD9154 SPI). You will see the GUI shown in Figure 11 come up. | ||
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- | {{: | + | | Figure 11. AD9154 SPIPro at start up | |
- | | Figure 11. AD9154 SPIPro at start up | + | </ |
3. SPIPro Start Up Sequence. | 3. SPIPro Start Up Sequence. | ||
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d. Set Data Rate to 750 MHz, Desired Frequency to 112 MHz, Amplitude to -1.0 dBFS, uncheck unsigned, check Generate Complex Data (I&Q). | d. Set Data Rate to 750 MHz, Desired Frequency to 112 MHz, Amplitude to -1.0 dBFS, uncheck unsigned, check Generate Complex Data (I&Q). | ||
- | e. Under Data Playback, select I data for DAC 0 and DAC2, and Q data for DAC 1 and DAC3. | + | e. Under Data Playback, select I data for DAC 0 and DAC2, and Q data for DAC 1 and DAC3. The DPGDownloader settings should resemble Figure 14. |
f. Click Download ({{: | f. Click Download ({{: | ||
- | 5. On SPIPro Quick Start Tab, click “Read All Registers” and confirm the GUI looks the same as Figure | + | 5. On SPIPro Quick Start Tab, click “Read All Registers” and confirm the GUI looks the same as Figure |
6. The current on the 5V supply should read around 1800mA - 1950mA. | 6. The current on the 5V supply should read around 1800mA - 1950mA. | ||
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+ | | {{ {{ : | ||
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| Figure 12. Fully Configured AD9154 SPIPro | | Figure 12. Fully Configured AD9154 SPIPro | ||
+ | </ | ||
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+ | | Figure 13. DPG Downloader Panel at Start Up | | ||
+ | </ | ||
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- | {{: | + | | {{ {{ : |
- | | Figure 13 DPG Downloader Panel at Start Up | | + | |
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- | | Figure 14 Fully Configured DPG Downloader Panel | + | |
+ | | Figure 14. Fully Configured DPG Downloader Panel | | ||
+ | </ | ||
7. Here is what you will see at the output of DAC0 on the Spectrum Analyzer. \\ \\ | 7. Here is what you will see at the output of DAC0 on the Spectrum Analyzer. \\ \\ | ||
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| Figure 15. DAC Output Spectrum Analyzer Display | | Figure 15. DAC Output Spectrum Analyzer Display | ||
+ | </ | ||
8. Here’s what you will see on DAC1, DAC2, and DAC3 on the scope. | 8. Here’s what you will see on DAC1, DAC2, and DAC3 on the scope. | ||
+ | <WRAP center> | ||
- | {{: | + | | {{ {{ : |
- | | Figure 16. DAC Outputs Scope Display | | + | | Figure 16. DAC Outputs Scope Display |
+ | </ | ||
===== ACE Software Features ===== | ===== ACE Software Features ===== |