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Entry  Tue Mar 1 16:01:14 2022, Paco, Update, Electronics, RFSoC 2x2 board -- setup for remote work & BALUN saga balun_adc1.pngPXL_20220302_001734121.jpg
    Reply  Thu Apr 7 20:33:42 2022, Tommy, Update, Electronics, RFSoC 2x2 board -- setup for remote work 
    Reply  Fri Apr 8 16:03:58 2022, rana, Update, Electronics, RFSoC 2x2 board -- setup for remote work & BALUN saga 
       Reply  Wed Apr 20 14:56:06 2022, Tommy, Update, Electronics, RFSoC 2x2 board -- setup for remote work & BALUN saga 
Message ID: 16763     Entry time: Thu Apr 7 20:33:42 2022     In reply to: 16689
Author: Tommy 
Type: Update 
Category: Electronics 
Subject: RFSoC 2x2 board -- setup for remote work 

To access the board remotely through the 40m lab ethernet port, use

ssh -N -L localhost:1137:localhost:9090 xilinx@<ip_address>

Then in the browser go to

localhost:1137/lab

Other SSH commands using different ports or without the -N -L seemed to fail to open Jupyter. This way has been successful thereafter.

Quote:

[Tommy, Paco]

Since last week I've worked with tommy on getting the RFSoC 2x2 board to get some TFs from simple minicircuits type filters. The first thing I did was set up the board (which is in the office area) for remote access. I hooked up the TCP/IP port to a wall ethernet socket (LIGO-04) and the caltech network assiggned some IP address to our box. I guess eventually we can put this behind the lab network for internal use only.

After fiddling around with the tone-generators and spectrum analyzer tools in loopback configuration (DAC --> ADC direct connection), we noticed that lower frequency (~ 1 MHz) signals were hardly making it out/back into the board... so we looked at some of the schematics found here and saw that both RF data converters (ADC & DAC) interfaces are AC coupled through a BALUN network in the 10 - 8000 MHz band (see Attachment #1). This is in principle not great news if we want to get this board ready for audio-band DSP.

We decided that while Tommy works on measuring TFs for SHP-200 all the way up to ~ 2 GHz (which is possible with the board as is) I will design and put together an analog modulation/demodulation frontend so we can upconvert all our "slow" signals < 1MHz for fast, wideband DSP. and demodulate them back into the audio band. The BALUN network is pictured in Attachment #2 on the board, I'm afraid it's not very simple to bypass without damaging the PCB or causing some other unwanted effect on the high-speed DSP.

 

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