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| resources:eval:dpg:eval-ad9106 [03 Nov 2022 03:41] – Draft 11/3 Deferson Romero | resources:eval:dpg:eval-ad9106 [03 Nov 2022 08:57] (current) – Draft 11/3 Deferson Romero |
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| \\ ==== Clock Configuration ==== | \\ ==== Clock Configuration ==== |
| The evaluation board has a provision for on-board or external clocking configuration. | The evaluation board has a provision for on-board or external clocking configuration. |
| * The on-board clocking configuration is implemented by default. DAC CLKP and CLKN are connected to the differential outputs of the on-board crystal oscillator as shown in Figure 5a. The onboard oscillator has a frequency of 156.25 MHz. If a different clock frequency is desired, Use external clocking configuration. | * The on-board clocking configuration is implemented by default. DAC CLKP and CLKN are connected to the differential outputs of the on-board crystal oscillator as shown in Figure 2a. The onboard oscillator has a frequency of 156.25 MHz. If a different clock frequency is desired, Use external clocking configuration. |
| * For external clocking configuration, change JP1 and JP2 connections first as shown in Figure 5b. Connect a High-frequency Continuous Wave Generator set to the desired frequency with 0dBm level to J10. The user will be prompted to enter the DAC Clock Input frequency in the ACE Board configuration wizard. | * For external clocking configuration, change JP1 and JP2 connections first as shown in Figure 2b. Connect a High-frequency Continuous Wave Generator set to the desired frequency with 0dBm level to J10. The user will be prompted to enter the DAC Clock Input frequency in the ACE Board configuration wizard. |
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| {{ :resources:eval:dpg:ad910x_jumpers_set1.png?300 }}<WRAP centeralign>//Figure 5a. DAC clock is connected to on-board oscillator (default) | Figure 5b. DAC clock is connected to J10//</WRAP> | {{ :resources:eval:dpg:ad910x_jumpers_set1.png?300 }}<WRAP centeralign>//Figure 2a. DAC clock is connected to on-board oscillator (default) | Figure 2b. DAC clock is connected to J10//</WRAP> |
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| ==== Output Configuration==== | ==== Output Configuration==== |
| The evaluation board has a provision to connect the DAC Outputs to the RF Balun Transformer or an 0n-board ADA4817-2 Amplifiers. <note important>When tapping to the evaluation board outputs, users are not limited to the SMA jacks. P14 headers are provided as alternative connectors but performance is not as good as when using SMA connectors.</note> | The evaluation board has a provision to connect the DAC Outputs to the RF Balun Transformer or an 0n-board ADA4817-2 Amplifiers. <note important>When tapping to the evaluation board outputs, users are not limited to the SMA jacks. P14 headers are provided as alternative connectors but performance is not as good as when using SMA connectors.</note> |
| * The DAC outputs are connected to the RF Balun Transformer by default as shown in figure 6. | * The DAC outputs are connected to the RF Balun Transformer by default as shown in figure 3. |
| * To use On-board ADA4817-2 Amplifiers, change JP1 and JP2 connections as shown in Figure 7. Ensure that a 7V to 12V 30W Wall Wart is connected to P15. The user should also select the **On-Board amplifier** DAC Output setting in the ACE Board Configuration wizard. | * To use On-board ADA4817-2 Amplifiers, change JP1 and JP2 connections as shown in Figure 4. Ensure that a 7V to 12V 30W Wall Wart is connected to P15. The user should also select the **On-Board amplifier** DAC Output setting in the ACE Board Configuration wizard. |
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| {{ :resources:eval:dpg:ad910x_jumpers_set3_default.png?600 }}<WRAP centeralign>//Figure 6a. SMA output connectors are connected to RF transformers (default)//</WRAP> | {{ :resources:eval:dpg:ad910x_jumpers_set3_default.png?600 }}<WRAP centeralign>//Figure 3a. SMA output connectors are connected to RF transformers (default)//</WRAP> |
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| {{ :resources:eval:dpg:ad910x_jumpers_set3_2.png?600 }} | {{ :resources:eval:dpg:ad910x_jumpers_set3_2.png?600 }} |
| <WRAP centeralign>//Figure 6b. SMA output connectors are connected to ADA4817-2 amplifier outputs//</WRAP> | <WRAP centeralign>//Figure 3b. SMA output connectors are connected to ADA4817-2 amplifier outputs//</WRAP> |
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| {{ :resources:eval:dpg:ad910x_jumpers_set2.png?280 }}<WRAP centeralign>//Figure 7a. DAC outputs are connected to RF transformers (default) | Figure 7b. DAC ouputs are connected to ADA4817-2 amplifiers//</WRAP> | {{ :resources:eval:dpg:ad910x_jumpers_set2.png?280 }}<WRAP centeralign>//Figure 4a. DAC outputs are connected to RF transformers (default) | Figure 4b. DAC ouputs are connected to ADA4817-2 amplifiers//</WRAP> |
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| ====Sample waveforms out of RF transformer==== | ====Sample Waveforms out of RF transformer==== |
| |{{ :resources:eval:dpg:ad9106_sample_3.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_3.jpg? }}| | |{{ :resources:eval:dpg:ad9106_sample_3.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_3.jpg? }}| |
| | //Figure 9a. AD9106 4 Pulsed DDS-Generated Sine Wave from a Pre stored waveform with Different Start Delay and Digital Gain Settings// | //Figure 9b. AD9102 Pulsed DDS-Generated Sine Wave from a Pre stored waveform// | | | //Figure 5a. AD9106 4 Pulsed DDS-Generated Sine Wave from a Pre stored waveform with Different Start Delay and Digital Gain Settings// | //Figure 5b. AD9102 Pulsed DDS-Generated Sine Wave from a Pre stored waveform// | |
| |{{ :resources:eval:dpg:ad9106_sample_5_2.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_5.jpg? }}| | |{{ :resources:eval:dpg:ad9106_sample_5_2.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_5.jpg? }}| |
| | //Figure 10a. AD9106 Pulsed DDS-Generated Sine Wave modulated by an SRAM Vector with Different Start Delay// | //Figure 10b. AD9102 Pulsed DDS-Generated Sine Wave modulated by an SRAM Vector// | | | //Figure 6a. AD9106 Pulsed DDS-Generated Sine Wave modulated by an SRAM Vector with Different Start Delay// | //Figure 6b. AD9102 Pulsed DDS-Generated Sine Wave modulated by an SRAM Vector// | |
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| ==== Sample waveforms out of Onboard Amplifier==== | ==== Sample Waveforms out of Onboard Amplifier==== |
| <note important>To properly observe waveforms below, connect the DAC outputs to on-board amplifiers.</note> | <note important>To properly observe waveforms below, connect the DAC outputs to on-board amplifiers.</note> |
| |{{ :resources:eval:dpg:ad9106_sample_1.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_1.jpg? }}| | |{{ :resources:eval:dpg:ad9106_sample_1.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_1.jpg? }}| |
| | //Figure 11a. AD9106 Gaussian Pulse from an SRAM Vector with Different Start Delay and Digital Gain Settings// | //Figure 11b. AD9102 Gaussian Pulse from an SRAM Vector// | | | //Figure 7a. AD9106 Gaussian Pulse from an SRAM Vector with Different Start Delay and Digital Gain Settings// | //Figure 7b. AD9102 Gaussian Pulse from an SRAM Vector// | |
| |{{ resources:eval:dpg:ad9106_sample_2.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_2.jpg? }}| | |{{ resources:eval:dpg:ad9106_sample_2.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_2.jpg? }}| |
| | //Figure 12a. AD9106 4 Pulses generated from an SRAM Vector// | //Figure 12b. AD9102 Pulse generated from an SRAM Vector// | | | //Figure 8a. AD9106 4 Pulses generated from an SRAM Vector// | //Figure 8b. AD9102 Pulse generated from an SRAM Vector// | |
| |{{ :resources:eval:dpg:ad9106_sample_4.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_4.jpg? }}| | |{{ :resources:eval:dpg:ad9106_sample_4.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_4.jpg? }}| |
| | //Figure 13a. AD9106 Pulsed DDS-Generated Sine Wave and 3 Sawtooth waveforms from prestored waveform generator// | //Figure 13b. AD9102 Sawtooth Waveform from Prestored Waveform Generator// | | | //Figure 9a. AD9106 Pulsed DDS-Generated Sine Wave and 3 Sawtooth waveforms from prestored waveform generator// | //Figure 9b. AD9102 Sawtooth Waveform from Prestored Waveform Generator// | |
| |{{ :resources:eval:dpg:ad9106_sample_6.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_6_amplifier.jpg? }}| | |{{ :resources:eval:dpg:ad9106_sample_6.jpg? }}|{{ :resources:eval:dpg:ad9102_sample_6_amplifier.jpg? }}| |
| | //Figure 14a. AD9106 DDS-Generated Sine wave from Prestored waveform and 3 Sawtooth waveforms from prestored waveform generator// | //Figure 14b. AD9102 DDS-Generated Sinewave from Prestored waveform// | | | //Figure 10a. AD9106 DDS-Generated Sine wave from Prestored waveform and 3 Sawtooth waveforms from prestored waveform generator// | //Figure 10b. AD9102 DDS-Generated Sinewave from Prestored waveform// | |
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| ===== Troubleshooting ===== | ===== Troubleshooting ===== |
