4 Apr 2023
Paul KB5MU unboxes the new Analog Devices EVAL-ADRV9002 evaluation board for their ADRV9002 dual-channel Narrow/Wide-band RF transceiver devices. This radio board will be used in conjunction with the Xilinx ZCU106 Zynq UltraScale+ MPSoC evaluation board already in use in Open Research Institute's Remote Lab West in San Diego. It will be available for remote development of open source radio communications projects. Its initial application will be development of an open source radio communication system for drones.
- 1 participant
- 9 minutes
4 Oct 2022
Measuring deviation limits on the MD-380 to see if it can be used for Opulent Voice.
- 1 participant
- 2 minutes
20 Sep 2022
Jump Links:
0:30 Reports Begin
2:30 f4pga possible use in Remote Lab South and open source FPGA tools
5:40 Versatune and Downlink transmitter updates
7:30 Versatune as Ground Station if DVB-S was used
8:40 Ham Expo Roundup
11:50 Simple FSK Receiver update. Original repo here: https://github.com/mcupro/simple-FSK
15:38 HEO proposal at JAMSAT member meeting and upcoming JAMSAT Journal
18:38 Need more people!
20:37 Conversation Rick Hambly and Open Source tools possibilities and directions. MATLAB, Octave, Python, and more.
0:30 Reports Begin
2:30 f4pga possible use in Remote Lab South and open source FPGA tools
5:40 Versatune and Downlink transmitter updates
7:30 Versatune as Ground Station if DVB-S was used
8:40 Ham Expo Roundup
11:50 Simple FSK Receiver update. Original repo here: https://github.com/mcupro/simple-FSK
15:38 HEO proposal at JAMSAT member meeting and upcoming JAMSAT Journal
18:38 Need more people!
20:37 Conversation Rick Hambly and Open Source tools possibilities and directions. MATLAB, Octave, Python, and more.
- 3 participants
- 46 minutes
22 Apr 2022
Paul KB5MU walks through the process of setting up a Remote Lab test using the AYECKA SR-1 DVB-S2 + GSE receiver to receive a DVB-S2 + GSE signal generated by GNU Radio with the gr-dvbgse module. A quick look at most of the setup menus of the SR-1. Complete installation of GNU Radio 3.9 on a fresh Ubuntu 20.04.4 LTS virtual machine.
ORI Remote Lab documents:
https://github.com/phase4ground/documents/tree/master/Remote_Labs
GNU Radio:
https://www.gnuradio.org
gr-dvbgse module from drmpeg, Ron Economos, W6RZ:
https://github.com/drmpeg/gr-dvbgse
Open Research Institute:
https://openresearch.institute
ORI Remote Lab documents:
https://github.com/phase4ground/documents/tree/master/Remote_Labs
GNU Radio:
https://www.gnuradio.org
gr-dvbgse module from drmpeg, Ron Economos, W6RZ:
https://github.com/drmpeg/gr-dvbgse
Open Research Institute:
https://openresearch.institute
- 1 participant
- 39 minutes
23 Nov 2021
Links from today's video:
From Suoto : https://trello.com/c/uUPCPAFh
From Abraxas3d : https://youtu.be/vjfRI1w_dSs
From Abraxas3d : https://www.openresearch.institute/board-of-directors/
From Suoto : https://trello.com/c/uUPCPAFh
From Abraxas3d : https://youtu.be/vjfRI1w_dSs
From Abraxas3d : https://www.openresearch.institute/board-of-directors/
- 4 participants
- 50 minutes
2 Nov 2021
Weekly FPGA stand-up meeting at ORI. This week we talk about Remote Lab repairs, and Andre successfully completed LDPC work and is starting on more GSE blocks.
- 2 participants
- 3 minutes
23 Sep 2021
Can OpenCPI work for ORI's FPGA work on Phase 4 Ground and Space? We talk details OpenCPI's Aaron Olivarez.
- 3 participants
- 45 minutes
27 May 2021
Summary of the Remote Labs West Lab PC Build.
Cubic Heavy Open Number Center, or C*H*O*N*C, is available for remote work. It's best equipped for DVB-S2/X experimentation, verification, and validation.
Cubic Heavy Open Number Center, or C*H*O*N*C, is available for remote work. It's best equipped for DVB-S2/X experimentation, verification, and validation.
- 2 participants
- 11 minutes
25 Mar 2021
A visual walkthrough of the features on the TEBF0808 UltraITX+ Baseboard for Trenz Electronic TE080X UltraSOM+, presented by Paul KB5MU and Michelle W5NYV.
Open Research Institute's remote labs are equipped with this board to facilitate remote development of FPGA-based amateur radio applications using the Xilinx UltraScale+ devices. The material presented in this video is the very first step toward becoming familiar with the board, as given on the first pages of the Getting Started document from Trenz.
https://wiki.trenz-electronic.de/display/PD/TEBF0808 Trenz documentation on the TEBF0808 base board, including the Getting Started document
https://wiki.trenz-electronic.de/pages/viewpage.action?pageId=24153560 Trenz documentation on the FPGA module we have
https://www.xilinx.com/products/silicon-devices/soc/zynq-ultrascale-mpsoc.html Xilinx Zynq UltraScale+ product line
https://github.com/phase4ground/documents/tree/master/Remote_Labs GitHub repository of ORI Remote Lab documents and software
https://github.com/phase4space/p4xt/wiki Phase4Space wiki, including documents on the ORI Remote Labs
https://www.openresearch.institute Open Research Institute
Open Research Institute's remote labs are equipped with this board to facilitate remote development of FPGA-based amateur radio applications using the Xilinx UltraScale+ devices. The material presented in this video is the very first step toward becoming familiar with the board, as given on the first pages of the Getting Started document from Trenz.
https://wiki.trenz-electronic.de/display/PD/TEBF0808 Trenz documentation on the TEBF0808 base board, including the Getting Started document
https://wiki.trenz-electronic.de/pages/viewpage.action?pageId=24153560 Trenz documentation on the FPGA module we have
https://www.xilinx.com/products/silicon-devices/soc/zynq-ultrascale-mpsoc.html Xilinx Zynq UltraScale+ product line
https://github.com/phase4ground/documents/tree/master/Remote_Labs GitHub repository of ORI Remote Lab documents and software
https://github.com/phase4space/p4xt/wiki Phase4Space wiki, including documents on the ORI Remote Labs
https://www.openresearch.institute Open Research Institute
- 2 participants
- 10 minutes
15 Jan 2021
Learn about some of the equipment in Remote Labs for FPGA development.
- 4 participants
- 4 minutes