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resources:eval:user-guides:mykonos:software:filters [17 May 2018 10:48] – [Use MATLAB App] sripad Jadhav | resources:eval:user-guides:mykonos:software:filters [05 Oct 2023 14:27] (current) – [Use MATLAB App] Michael Hennerich | ||
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* **Executable**: | * **Executable**: | ||
The MATLAB runtime engine can be downloaded from the following link: | The MATLAB runtime engine can be downloaded from the following link: | ||
- | [[https:// | + | [[mw>products/ |
* **MATLAB App**: the app runs as an application within MATLAB. Use of the app requires MATLAB to be running with valid licenses for the Control System Toolbox as well as MATLAB itself. The GUI and flexibility are identical to the executable, but running as an app in MATLAB allows the user to write additional code to post-process the data files created by the wizard. | * **MATLAB App**: the app runs as an application within MATLAB. Use of the app requires MATLAB to be running with valid licenses for the Control System Toolbox as well as MATLAB itself. The GUI and flexibility are identical to the executable, but running as an app in MATLAB allows the user to write additional code to post-process the data files created by the wizard. | ||
* **MATLAB source code (function)**: | * **MATLAB source code (function)**: | ||
- | The executable is available here: [[ftp://adirfbwacust: | + | The executable is available here: |
+ | [[ez>rf/wide-band-rf-transceivers/design-support-ad9371/w/documents/18048/ad9371-75-filter-wizard-setup-file-faq]] | ||
- | The app is available here: | ||
- | [[ftp:// | ||
The source code is available here: | The source code is available here: | ||
- | [[ftp://adirfbwacust: | + | [[ez>rf/wide-band-rf-transceivers/design-support-ad9371/m/file-uploads/2924]] |
This section elaborates on the first two options, the executable and the App, and addresses both identically since the input and output functionality is the same. | This section elaborates on the first two options, the executable and the App, and addresses both identically since the input and output functionality is the same. | ||
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* Tx Rules | * Tx Rules | ||
* 30 MSPS < = Tx Input Sample Rate < = 320 MSPS | * 30 MSPS < = Tx Input Sample Rate < = 320 MSPS | ||
- | * 5 MHz < = Tx Primary Signal BW < = 100 MHz | + | * 10 MHz < = Tx Primary Signal BW < = 100 MHz |
* 20 MHz < = Tx RF (Synthesis) BW < = 240 MHz | * 20 MHz < = Tx RF (Synthesis) BW < = 240 MHz | ||
* Tx Primary Signal BW < = Tx RF (Synthesis) BW | * Tx Primary Signal BW < = Tx RF (Synthesis) BW | ||
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* Rx Rules | * Rx Rules | ||
* 20 MSPS < = Rx Output Sample Rate < = 200 MSPS | * 20 MSPS < = Rx Output Sample Rate < = 200 MSPS | ||
- | * 5 MHz < = Rx Signal BW < = 100 MHz | + | * 8 MHz < = Rx Signal BW < = 100 MHz |
* Rx Signal BW > = 0.4 * Rx Output Sample Rate | * Rx Signal BW > = 0.4 * Rx Output Sample Rate | ||
* Rx Signal BW < = 0.82 * Rx Output Sample Rate | * Rx Signal BW < = 0.82 * Rx Output Sample Rate | ||
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* Rx FIR decimation options: 1, 2, 4 | * Rx FIR decimation options: 1, 2, 4 | ||
* ORx Rules | * ORx Rules | ||
- | * 5 MHz < = ORx Signal BW < = 240 MHz | + | * 8 MHz < = ORx Signal BW < = 240 MHz |
* 20 MSPS < = ORx Output Sample Rate < = 320 MSPS | * 20 MSPS < = ORx Output Sample Rate < = 320 MSPS | ||
* ORx Signal BW > = 0.4 * ORx Output Sample Rate | * ORx Signal BW > = 0.4 * ORx Output Sample Rate |