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resources:eval:ad9265-fmc-125ebz [11 Mar 2022 04:20] – [Setting up the ADC Data Capture] John Xavier Toledoresources:eval:ad9265-fmc-125ebz [20 Dec 2023 11:44] (current) – Add obsolesce notice. Stefan-Robert Raus
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 ====== EVALUATING THE AD9265 ANALOG-TO-DIGITAL CONVERTER ====== ====== EVALUATING THE AD9265 ANALOG-TO-DIGITAL CONVERTER ======
 +
 +<note warning>**NOTE:**\\
 +Support for the AD9265-fmc is discontinued  starting with 2022_R2 Kuiper Linux release and  it will not be supported in future releases. Last release in which pre-build files can be found is 2021_r2. Check this [[:resources:tools-software:linux-software:adi-kuiper_images:release_notes|link]] to see all Kuiper releases.
 +</note>
  
 ===== Preface ===== ===== Preface =====
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 {{ :resources:eval:ad9265_fmc_125ebz_typical_setup.jpg?600 |}} {{ :resources:eval:ad9265_fmc_125ebz_typical_setup.jpg?600 |}}
 <WRAP centeralign> <WRAP centeralign>
-//Figure 1. Evaluation Board Connection—[[adi>AD9265|AD9265-FMC-125EBZ]] (on Left) and [[adi>sdp|EVAL-SDP-CH1Z]] SDP-H1 (on Right)//+//Figure 1. Evaluation Board Connection—[[adi>AD9265|AD9265-FMC-125EBZ]] (on Left) and \\ [[adi>sdp|EVAL-SDP-CH1Z]] SDP-H1 (on Right)//
 </WRAP>  </WRAP> 
 ===== Features ===== ===== Features =====
   * Full featured evaluation board for the [[adi>AD9265|AD9265]].   * Full featured evaluation board for the [[adi>AD9265|AD9265]].
   * SPI interface for setup and control   * SPI interface for setup and control
-  * External, on-board oscillator, or [[adi>ad9517|AD9517]] clocking option+  * External, on-board oscillator, and [[adi>ad9517|AD9517]] clocking options
   * Balun/transformer or amplifier input drive option   * Balun/transformer or amplifier input drive option
   * LDO regulator or switching power supply options   * LDO regulator or switching power supply options
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   * Layout: {{ :resources:eval:ad9265_fmc_125ebz_lay.pdf |AD9265-FMC-125EBZ RevA}}   * Layout: {{ :resources:eval:ad9265_fmc_125ebz_lay.pdf |AD9265-FMC-125EBZ RevA}}
   * Bill of Materials: {{ :resources:eval:ad9265_fmc_125ebz_bom.xls |AD9265-FMC-125EBZ RevA}}   * Bill of Materials: {{ :resources:eval:ad9265_fmc_125ebz_bom.xls |AD9265-FMC-125EBZ RevA}}
-  * FPGA Program File: ad9265_sdph1.bin (request this file from highspeedproductssupport@analog.com)+  * FPGA Program File: {{ :resources:eval:ad9265_sdph1.zip |ad9265_sdph1.bin}}
 ===== Equipment Needed ===== ===== Equipment Needed =====
   * Analog signal source (preferably SMA 100A Signal Generator)   * Analog signal source (preferably SMA 100A Signal Generator)
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 ==== Setting up the ADC Data Capture ==== ==== Setting up the ADC Data Capture ====
 After configuring the board, set up the ADC data capture using the following steps: After configuring the board, set up the ADC data capture using the following steps:
-  - Start Visual Analog. +  - Start Visual Analog. {{ :resources:eval:ad9265_va_start_button.png?100 |}}<WRAP centeralign>//Figure 2. VisualAnalog, Start Button//</WRAP> 
-  - Select AD9265 and double click FFT +  - Select AD9265 and double click FFT {{ :resources:eval:ad9265_va_new_canvas.png?600 |}}<WRAP centeralign>//Figure 3. VisualAnalog, New Canvas Window//</WRAP> 
-  - Click settings under ADC Data Capture section.+  - Click settings under ADC Data Capture section. {{ :resources:eval:ad9265_va_adc_data_capture_2.png?300 |}}<WRAP centeralign>//Figure 4. VisualAnalog, ADC Data Capture Section//</WRAP>
   - Set device to AD9265.   - Set device to AD9265.
-  - Navigate to Capture Board and browse your file directory for the FPGA Image called (ad9265_sdph1.bin) +  - Navigate to Capture Board and browse your file directory for the FPGA Image called(ad9265_sdph1.bin) 
-  - Click Program and check if LED0 on the SDP-H1 lights up. Then, click OK.+  - Click Program and check if LED0 on the SDP-H1 lights up. Then, click OK. {{ :resources:eval:ad9265_va_adc_data_capture_setting_fpga.png?600 |}}<WRAP centeralign>//Figure 5. VisualAnalog, ADC Data Capture Settings//</WRAP>
 ===== Evaluation And Test ===== ===== Evaluation And Test =====
 ==== Setting up the SPI Controller Software ==== ==== Setting up the SPI Controller Software ====
-  - Start SPIController +  - Start SPIController {{ :resources:eval:ad9265_spicontroller_start_button.png?100 |}}<WRAP centeralign>//Figure 6. SPIController Start Button//</WRAP> 
-  - If a message opens saying "Read Test Failure", select Ignore. +  - If a message opens saying "Read Test Failure", select Ignore. {{ :resources:eval:ad9265_spicontroller_msg_ignore.png?400 |}}<WRAP centeralign>//Figure 7. 1st Ignore Test Failure//</WRAP> 
-  - Click File > Cfg Open then find the file named "ad9265_16bit_125MSspiR03.cfg" and double click it. +  - Click File > Cfg Open then find the file named "ad9265_16bit_125MSspiR03.cfg" and double click it. {{ :resources:eval:ad9265_spicontroller_cfg_open.png?400 |}}<WRAP centeralign>//Figure 8. Configuration Settings//</WRAP> 
-  - Again, if a message opens saying "Read Test Failure", select Ignore. +  - Again, if a message opens saying "Read Test Failure", select Ignore. {{ :resources:eval:ad9265_spicontroller_msg_ignore.png?400 |}}<WRAP centeralign>//Figure 9. 2nd Ignore Test Failure//</WRAP> 
-  - Click Config > Controller Dialog. +  - Click Config > Controller Dialog. {{ :resources:eval:ad9265_spicontroller_controller_dialog.png?400 |}}<WRAP centeralign>//Figure 10. Controller Dialog Guide//</WRAP> 
-  - Un-select SDO Active and click OK. +  - Un-select SDO Active and click OK. {{ :resources:eval:ad9265_spicontroller_unselect_sdo_2.png?400 |}}<WRAP centeralign>//Figure 11. Controller Dialog Setting//</WRAP> 
-  - Click Read chip ID and Read Chip Grade.+  - Click Read chip ID and Read Chip Grade. {{ :resources:eval:ad9265_spicontroller_read_chip_id_grade.png?300 |}}<WRAP centeralign>//Figure 12. Read Chip ID and Read Chip Grade Section//</WRAP>
   - Go Back to Visual Analog and click Play button.   - Go Back to Visual Analog and click Play button.
 ==== Adjusting the Amplitude of the Input Signal ==== ==== Adjusting the Amplitude of the Input Signal ====
 The next step is to adjust the amplitude of the input signal for each channel as follows: The next step is to adjust the amplitude of the input signal for each channel as follows:
-  - Adjust the amplitude of the input signal so that the fundamental is at -1.0 dBFS. Examine the **Fund Power** reading in the left panel of the **VisualAnalog Graph - AD9265 Average FFT** window (see Figure 11) to verify this.{{ :resources:eval:ad9265_graph_window_of_va.png?500 |}}<WRAP centeralign>//Figure 11. Graph Window of VisualAnalog //</WRAP> +  - Adjust the amplitude of the input signal so that the fundamental is at -1.0 dBFS. Examine the **Fund Power** reading in the left panel of the **VisualAnalog Graph - AD9265 Average FFT** window (see Figure 13) to verify this.{{ :resources:eval:ad9265_typical_window_2.png?500 |}}<WRAP centeralign>//Figure 13. Graph Window of VisualAnalog //</WRAP> 
-  - Click the disk icon within the **Graph** window to save the performance plot data as .csv formatted file. See Figure 12 for AD9265 example. Please refer to the respective data sheet of the product of interest for its typical FFT performance.{{ :resources:eval:ad9265_typ_fft.png?500 |}}<WRAP centeralign>// Figure 12Typical FFT, AD9265//</WRAP>+  - Click the disk icon within the **Graph** window to save the performance plot data as .csv formatted file. {{ :resources:eval:ad9265_va_disk_icon.png?500 |}}<WRAP centeralign>//Figure 14VisualAnalog Disk Icon //</WRAP>
  
 ==== Testing Additional AD9265 Boards ==== ==== Testing Additional AD9265 Boards ====
resources/eval/ad9265-fmc-125ebz.1646968827.txt.gz · Last modified: 11 Mar 2022 04:20 by John Xavier Toledo

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