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--- resources:eval:dpg:ace_ad9144-fmc-ebz [02 Aug 2022 10:07] – [Hardware Setup] Shine Cabatan
+++ resources:eval:dpg:ace_ad9144-fmc-ebz [12 Aug 2022 11:51] (current) – [Quick Start Guide] Shine Cabatan
@@ Line 5: / Line 5: @@
 This user guide describes both the hardware and software setup needed to acquire data capture from [[adi>EVAL-AD9144|AD9144-FMC-EBZ]] evaluation board to characterize [[adi>AD9144]] 16-bit 2.8Gsps quad JESD204B signal processing RF Digital to Analog Converter.
-The [[adi>EVAL-AD9144|AD9144-FMC-EBZ]] is an FMC mezzanine card and connects to an [[adi>eval-ads7-v2|ADS7-V2]] or [[adi>eval-ads8-v1ebz|ADS8-V1]] data pattern generator system. The AD9144 is a quad JESD204B signal processing RF Digital to Analog Converter. The ADS7-V2/ADS8-V1 automatically formats the data and sends it to the AD9144-FMC-EBZ via its JESD204B lanes. +12V, +3.3V, and VADJ power supply rails are provided by the ADS7-V2/ADS8-V1 system via the FMC connector P1. A clock distribution chip AD9516 is included on this EVB as a clock fan-out and frequency divider for the DACCLK, JESD204B SYSREF signals, and a GBTCLK clock used by the ADS7-V2/ADS8-V1. There is also an FMC standard I2C bus that is used by the ADS7-V2/ADS8-V1 to identify the AD9144-FMC-EBZ. This I2C interface is implemented in software in the AD9144-FMC-EBZ PIC processor (XU1). All ADS7-V2/ADS8-V1 to/from AD9144-FMC-EBZ interface signals are connected via the FMC connector P1.
+The [[adi>EVAL-AD9144|AD9144-FMC-EBZ]] is an FMC mezzanine card and connects to an [[adi>eval-ads7-v2|ADS7-V2]] data pattern generator system. The ADS7-V2 automatically formats the data and sends it to the AD9144-FMC-EBZ via its JESD204B lanes. +12V, +3.3V, and VADJ power supply rails are provided by the ADS7-V2 system via the FMC connector P1. A clock distribution chip AD9516 is included on this EVB as a clock fan-out and frequency divider for the DACCLK, JESD204B SYSREF signals, and a GBTCLK clock used by the ADS7-V2. There is also an FMC standard I2C bus that is used by the ADS7-V2 to identify the AD9144-FMC-EBZ. This I2C interface is implemented in software in the AD9144-FMC-EBZ PIC processor (XU1). All ADS7-V2 to/from AD9144-FMC-EBZ interface signals are connected via the FMC connector P1.
 ===== Typical Setup =====
-<WRAP centeralign> {{ :resources:eval:dpg:ad9144-fmc-ebz_setup_withlabels.jpg?600 |}}//Figure 1a. AD9144-FMC-EBZ Setup with ADS7-V2EBZ//</WRAP>
+<WRAP centeralign> {{ :resources:eval:dpg:ad9144-fmc-ebz_setup_withlabels.jpg?600 |}}//Figure 1. AD9144-FMC-EBZ Setup with ADS7-V2EBZ//</WRAP>
-<WRAP centeralign> {{ :resources:eval:dpg:ad9144-fmc-ebz_setup_withlabels.jpg?600 |}}//Figure 1b. AD9144-FMC-EBZ Setup with ADS8-V1EBZ//</WRAP>
 <note tip>Tip: Click on any picture in this guide to open an enlarged version.</note>
@@ Line 19: / Line 17: @@
     * [[:resources:eval:dpg:ad9144-ebz|AD9144-EBZ]]
     * [[:resources:eval:dpg:ad9144-adrf6720-ebz|AD9144-ADRF6720-EBZ]]
+  * [[:resources:eval:dpg:ads7|ADS7-V1/-V2 for High-Speed DAC Evaluation]]
   * Datasheet: [[adi>media/en/technical-documentation/data-sheets/AD9144.pdf|AD9144]]
   * IBIS Model: [[ibis>ad9144bcpz|AD9144]]
@@ Line 35: / Line 34: @@
   * [[adi>plugins/ace/board.ad9144.1.2020.4400.acezip|AD9144 ACE Plugin]]
-<note important>**Known Issue:** ACE may fail to detect HS-DAC boards, details [[resources:tools-software:ace:knownissues#high-speed_dac_eval_boards_are_not_discovered|here]].</note>
+<note important>
+  * Do not install ACE on a computer with DAC Software Suite.
+  * **Known Issue:** ACE may fail to detect HS-DAC boards, details [[resources:tools-software:ace:knownissues#high-speed_dac_eval_boards_are_not_discovered|here]].
+</note>
 ===== Hardware Needed =====
@@ Line 41: / Line 43: @@
   * [[adi>EVAL-AD9144|AD9144-FMC-EBZ]] Evaluation Board which comes with:
      * USB-A to USB-Mini Cable
-  * [[:resources:eval:ads7-v2|ADS7-V2EBZ]] or [[:resources:eval:ads8-v1|ADS8-V1EBZ]] Evaluation Kit which includes:
+  * [[:resources:eval:ads7-v2|ADS7-V2EBZ]] Evaluation Kit which includes:
      * 12V 60W AC/DC Power Supply
      * Power Cord
@@ Line 47: / Line 49: @@
   * PC with ACE and DPG Lite Software Applications
   * Low Phase Noise High-Frequency Continuous Wave Generator
-  * Signal/Spectrum Analyzer and/or Wide Bandwidth Oscilloscope
+  * Signal/Spectrum Analyzer
   * (2) SMA Cables
 ===== Quick Start Guide =====
-  - Attach AD9144-FMC-EBZ onto the FMC connector of ADS7-V2 or ADS8-V1 controller board. Connect the evaluation board to PC via USB, the continuous waveform generator output to J1, and one of the DAC outputs to a signal/spectrum analyzer. Connect ADS7-V2/ADS8-V1 to PC via USB and to a 12V 60W AC/DC power supply, then switch the board ON using S1 beside the connector for 12V supply. Refer to [[:resources:eval:dpg:ad9144-fmc-ebz|Typical Setup]] for pictures of actual evaluation setup.
+  - Attach AD9144-FMC-EBZ onto the FMC connector of ADS7-V2 controller board. Connect the evaluation board to PC via USB, the continuous waveform generator output to J1, and one of the DAC outputs (J4/J5/J14/J17) to a signal/spectrum analyzer. Connect ADS7-V2 to PC via USB and to a 12V 60W AC/DC power supply, then switch the board ON using S1 beside the connector for 12V supply. Refer to [[:resources:eval:dpg:ace_ad9144-fmc-ebz#typical setup|Typical Setup]] section for pictures of actual evaluation setup.
   - Set the frequency of the continuous waveform generator output to **1.5 GHz** and the output level to **+3 dBm**. Enable the output. <WRAP centeralign>{{ :resources:eval:dpg:ad9144-fmc-ebz_dpg_board_detect.png?600 |}}//Figure 2. ADS7-V2 and AD9144 detected in DPG Software//</WRAP>
   - Start DPG Lite or DPG Downloader. A panel named after the detected controller board should appear at the bottom of the DPG window. The device on the evaluation board and the data interface should also be automatically detected by the software and shown at **Evaluation Board** and **Port Configuration**, respectively. See Figure 2. <WRAP centeralign>{{ :resources:eval:dpg:ad9144-fmc-ebz_ace_board_detect.png?600 |}}//Figure 3. AD9144-FMC-EBZ detected in ACE//</WRAP>
-  - Open ACE. The board will automatically be recognized by the software as shown in Figure 3. Otherwise, install the plugin for AD9144 evaluation board by following the steps in this page: [[:resources:tools-software:ace:userguide:quickstart|Quickstart - ACE Quickstart and Plug-in Installation]]. <WRAP centeralign>{{ :resources:eval:dpg:ad9144-fmc-ebz_ace_configuration_settings.png?600 |}}//Figure 4. ACE Initial Configuration Wizard//</WRAP>
+  - Open ACE. The board will automatically be recognized by the software as shown in Figure 3. Otherwise, install the plugin for AD9144 evaluation board by following the steps in this page: [[:resources:tools-software:ace:userguide:quickstart|Quickstart - ACE Quickstart and Plug-in Installation]]. <WRAP centeralign>{{ :resources:eval:dpg:ad9144-fmc-ebz_ace_configuration_settings.png?600 |}}//Figure 4. ACE Initial Configuration Wizard//</WRAP><WRAP centeralign>{{ :resources:eval:dpg:ad9144-fmc-ebz_ace_chipview.png?600 |}}//Figure 5. ACE AD9144 Chipview Tab//</WRAP>
   - In ACE, apply the configuration wizard settings enumerated below and shown in Figure 4. JESD204B PLL should lock and the indicator should turn green.
     * **Links:** Single Link
     * **JESD Mode:** 0
-    * **Subclass 1 :** False
+    * **Subclass1:** False
     * **Interpolation:** 2
     * **DAC PLL:** False
-    * **FDAC:** 1.5 GHz <WRAP centeralign>{{ :resources:eval:dpg:ad9144-fmc-ebz_dpg_single_tone.png?600 |}}//Figure 5. Single Tone and ADS7-V2 Configuration Panels in DPG//</WRAP>
+    * **FDAC:** 1.5 GHz <WRAP centeralign>{{ :resources:eval:dpg:ad9144-fmc-ebz_dpg_output_generation.png?600 |}}//Figure 6. Single Tone and ADS7-V2 Configuration Panels in DPG//</WRAP>
   - In DPG Lite or DPG Downloader, configure single tone waveform generation. From the **Add Generator Waveforms** pulldown menu, select **Single Tone**. Apply the following settings:
     * **Data Rate:** 750 MHz
@@ Line 68: / Line 70: @@
     * **DAC Resolution:** 16 bits
     * **Amplitude:** -1 dB
-    * **Unsigned Data:** checked
+    * **Unsigned Data:** unchecked
     * **Generate Complex Data (I & Q):** checked <insert DPG screenshot with lane rate and synced status>
-  - In the ADS7-V2 or ADS8-V1 panel in the DPG window, configure **Data Playback** by selecting tones for the DAC outputs from each dropdown menu. Set **JESD Mode** to Mode 0, **Links** to Single, and **Subclass** to 0.
+  - In the ADS7-V2 panel in the DPG window, configure **Data Playback** by selecting tones for the DAC outputs from each dropdown menu. Set **JESD Mode** to Mode 0, **Links** to Single, and **Subclass** to 0.<WRAP centeralign>{{ :resources:eval:dpg:ad9144-fmc-ebz_spectrum_capture.png?600 |}}//Figure 7. AD9144 DAC Output FFT for Data Rate = 750 MHz, FOUT = 112 MHz//</WRAP>
-  - Press the download arrow ({{:resources:eval:dpg:9154_down_arrow.png}}) then the play button ({{:resources:eval:dpg:9154_right_green_arrow.png}}). **Serial Line Rate** should appear as <> Gbps and **Sync Status** should have a check mark. FFT plot of DAC0 output is in Figure 6.
+  - Press the download arrow ({{:resources:eval:dpg:9154_down_arrow.png}}) then the play button ({{:resources:eval:dpg:9154_right_green_arrow.png}}). **Serial Line Rate** should appear as 7.5 Gbps and **Sync Status** should have a check mark. FFT plot of the DAC output is in Figure 7.
-<WRAP centeralign>{{ :resources:eval:dpg:ad9144:figure_8_ad9144_fmc_ebz_spectrum_capture.png?600 |}}//Figure 6. AD9144 DAC0 Output FFT for Data Rate = 750 MHz, FOUT = 112 MHz//</WRAP>
-===== Getting Started =====
-The PC software is included in the CD shipped with the EVB. The installation will include the DPG Downloader and ACE software as well as all the necessary AD9144 files including schematic, board layout, datasheet, and other files.
-==== Initial Set-Up ====
-.	Install the DPG Downloader and ACE software and support files on your PC. Follow the instructions in the installation wizard and use the default (recommended) installation settings.  \\ \\
-.	Plug the AD9144-FMC-EBZ into port FMC_1 of the ADS7 System. Use a USB cable to connect the EVB to your PC and connect the lab equipment to the EVB as shown in Figure 1. \\ \\
-.	Connect the ADS7 unit to your PC via USB and turn on the ADS7.  \\ \\

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