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| resources:eval:user-guides:targetting:xilinx_sdsoc [17 Jul 2015 16:00] – [FMCOMMSx SDSoC Platforms] Andrei Cozma | resources:eval:user-guides:targetting:xilinx_sdsoc [17 Jul 2015 17:30] – [Xilinx SDSoc Targeting Example] Andrei Cozma |
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| * [[adi>AD-FMComms2-EBZ]] | * [[adi>AD-FMComms2-EBZ]] |
| * [[adi>AD-FMComms3-EBZ]] | * [[adi>AD-FMComms3-EBZ]] |
| * [[adi>AD-FMComms3-EBZ]] | * [[adi>AD-FMComms4-EBZ]] |
| * [[adi>AD-FMComms5-EBZ]] | * [[adi>AD-FMComms5-EBZ]] |
| The supported Xilinx Zynq based carriers are: | The supported Xilinx Zynq based carriers are: |
| * On the newly created SD card copy the //boot.bin// generated by SDSoC in the //sd_card// folder | * On the newly created SD card copy the //boot.bin// generated by SDSoC in the //sd_card// folder |
| * Insert the SD card in the Xilinx ZC702 carrier board, connect antennas to the RF ports of the FMCOMMS2 or loopback cables between Rx and Tx, connect the FMCOMMS2 to the ZC702, connect the ZC702 to a HDMI monitor, connect a mouse and keyboard to the ZC702, connect an Ethernet cable to the ZC702, start the system | * Insert the SD card in the Xilinx ZC702 carrier board, connect antennas to the RF ports of the FMCOMMS2 or loopback cables between Rx and Tx, connect the FMCOMMS2 to the ZC702, connect the ZC702 to a HDMI monitor, connect a mouse and keyboard to the ZC702, connect an Ethernet cable to the ZC702, start the system |
| - After Linux boots the IIO Oscilloscope starts automatically. In the IIO Oscilloscope configure the Rx and Tx LO frequencies to be the same, eg. 2.4GHz | * After Linux boots the IIO Oscilloscope starts automatically. In the IIO Oscilloscope configure the Rx and Tx LO frequencies to be the same, eg. 2.4GHz |
| - In the IIO Oscilloscope configure the Transmit/DDS as shown below. Please make sure to select a file unde ‘DAC Buffer settings’, any file will do, and press the ‘Load’ button. All the DAC Channels must be selected before pressing ‘Load’. | * In the IIO Oscilloscope configure the Transmit/DDS as shown below. Please make sure to select a file unde ‘DAC Buffer settings’, any file will do, and press the //Load// button. All the DAC Channels must be selected before pressing //Load//. |
| - Using a program like WinSCP copy from the project folder the //dds_script.sh// to the device’s ///usr/local/bin folder//. The credentials for the SCP connection between the PC and the device are: user – analog, password – analog. In order to configure the SCP connection you need the IP of the device, to get that just type //ifconfig// in a terminal on the device. | * Using a program like WinSCP copy from the project folder the //dds_script.sh// to the device’s ///usr/local/bin folder//. The credentials for the SCP connection between the PC and the device are: user – analog, password – analog. In order to configure the SCP connection you need the IP of the device, to get that just type //ifconfig// in a terminal on the device. |
| - Run the //dds_script.sh// as shown below. This will initialize and activate the DDS IP. | * Run the //dds_script.sh// as shown below. This will initialize and activate the DDS IP. |
| - On the IIO Oscilloscope select the //voltage0// and //voltage1// channels and press the //Play// button. You should see the DDS waveforms displayed by the IIO Oscilloscope . | * On the IIO Oscilloscope select the //voltage0// and //voltage1// channels and press the //Play// button. You should see the DDS waveforms displayed by the IIO Oscilloscope . |
| {{ :resources:eval:user-guides:targetting:dds_out.png?400 |}} | {{ :resources:eval:user-guides:targetting:dds_out.png?400 |}} |
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