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Goal is to determine short term fluctuations in effective optical path from WWV and other beacons (NYC) through ionosphere. 
One method is to measure phase fluctuations of a CW carrier on short time scales. This can be done with an SDR that is tuned near zero beat, so that lower mixing product phase reflects carrier phase. 
GPS-disciplined receiver can be used to determine stability of local oscillator in SDR. 


GPS receiver from ebay: 

https://www.ebay.com/itm/285244181517?_trkparms=amclksrc%3DITM%26aid%3D1110006%26algo%3DHOMESPLICE.SIM%26ao%3D1%26asc%3D252416%26meid%3D31841f706dd0486e93412310b010fbed%26pid%3D101195%26rk%3D1%26rkt%3D12%26sd%3D266216859978%26itm%3D285244181517%26pmt%3D1%26noa%3D0%26pg%3D2047675%26algv%3DSimplAMLv11WebTrimmedV3MskuWithLambda85KnnRecallV1V2V4ItemNrtInQueryAndCassiniVisualRankerAndBertRecallWithVMEV3%26brand%3DUnbranded&_trksid=p2047675.c101195.m1851&amdata=cksum%3A28524418151731841f706dd0486e93412310b010fbed%7Cenc%3AAQAIAAABUPqB0EgCndAssfMWNy0AT0GytGzF9%252By0G%252BlcW69DgBK3Qlz4BjwJQqPkN4K8I7qz9GoVciN1QNWqyS8EeqYS8rZRsDvyvw34m3N%252FyJKokwCTIIc3RNym2SNW8ARudP72DyiwgIY0dfUnIr5%252BMZDTaou%252Bf97VLmKujF1xnn1EGWjrUHEUvXp7yNeBStCBICkUQbXxs%252F%252F2Sf7JAexI%252FSgpIFon6HI%252FgG%252BMiLi0wE2k9ZIqwzTOEquDl7yGaTqTFVzuDy5bliq5xWSQv7fl%252FBPS1ZY92UcLW4TFdEqvypNOeft7%252B8VFhsqVDjrkpAaecey6XVnO%252Fovg0bOAEGjFA0c75R1m3bvn3v9wRf799CHiQf9gEcR3bBsSrJzWytza%252FAb8V8rezUqaMg9KZFxaS4alKttj6vW%252BYsX54AkrJl5y656EeF5bbGdEAp65B4CrgYzbWA%253D%253D%7Campid%3APL_CLK%7Cclp%3A2047675


SDR code: 


https://github.com/f4exb/sdrangel/wiki/Compile-in-MacOS


OSX shell script audio recording: 


https://apple.stackexchange.com/questions/326388/terminal-command-to-record-audio-through-macbook-microphone

HUIT-FAS-MacBook-Stubbs:proposals cstubbs$ ffmpeg -f avfoundation -list_devices true -i "" -hide_banner 

[AVFoundation indev @ 0x7f7f8d824c80] AVFoundation video devices:

[AVFoundation indev @ 0x7f7f8d824c80] [0] FaceTime HD Camera (Built-in)

[AVFoundation indev @ 0x7f7f8d824c80] [1] Capture screen 0

[AVFoundation indev @ 0x7f7f8d824c80] AVFoundation audio devices:

[AVFoundation indev @ 0x7f7f8d824c80] [0] ZoomAudioDevice

[AVFoundation indev @ 0x7f7f8d824c80] [1] MacBook Pro Microphone

: Input/output error



from GPT-4, time-tagged shell script

---------------------------------

#!/bin/bash

# Identify the external microphone device using its name or index
MIC_INPUT="Microphone Name or Index" # You may need to replace this with the correct name or index

# Directory to save the audio files
OUTPUT_DIR="/path/to/your/directory"

# Ensure the output directory exists
mkdir -p "$OUTPUT_DIR"

while true; do
  # Get the current minute
  current_minute=$(date +"%M")

  # Check if it's 7 minutes past the hour
  if [ "$current_minute" -eq "07" ]; then
    # Get the current time for time-tagging
    timestamp=$(date +"%Y%m%d%H%M%S")
    
    # Capture the audio stream using ffmpeg
    ffmpeg -f avfoundation -i ":$MIC_INPUT" -t 3600 "$OUTPUT_DIR/audio_$timestamp.wav"

    # Sleep for the remaining of the hour to prevent capturing multiple times
    sleep 53m
  fi

  # Sleep for a minute before checking again
  sleep 1m
done

----------------------------

To rotate polarization basis with 90 degree phase slip, we need a time delay of one quarter of a period. 

WWV frequencies are 2.5, 5, 10, 15, 20 MHz.

freq MHzperiod (ns)period/4 for 90 deg (ns)
2.5400100
520050
1010025
1566.66716.6667
205012.5
254010

NIST broadcast format: https://www.nist.gov/time-distribution/radio-station-wwv/wwv-and-wwvh-digital-time-code-and-broadcast-format


This box is useful: 

Configurations: 

Two magloops: one in horizontal plane, one in vertical plane. Vertical one in plane that points towards CO 
Take output of one of them and feed into delay line. 
Run A and (B-delayed) into signal combiner, which sums them. That picks out circular polarization
setting on delay line determines polarization we are monitoring

combinationpolarization of E-field
vert coil onlyhoriz E field
horiz coil onlyvert E field
combine with 0 delay45 degree linear polarization
combine with 180 delay-45 linear polarization
combine with 90 delay on Acircular 1
combine with 90 delay on Bcircular 2

Note that we could inject a GPS-disciplined oscillator that is offset in frequency but within the SDR capture bandwidth as a phase reference, making the system immune to LO fluctuations with abiliity to measure Doppler. 
Also inject GPS signal directly to measure LO systematics on SDR. 

WWV signals

flambda
2.5 MHz120 m
560 m
1030 m
1520 m
2015 m
2512 m

CO to MA propagation estimates:


Signals: 


WWV: Minuts 8 from WWV and minute 48 from WWVH send out ionosphere diagnostic signals. See https://www.nist.gov/pml/time-and-frequency-division/time-services/wwvwwvh-scientific-modulation-working-group 
These each last 45 seconds. 



Reverse Beacon network is another source, see: https://www.ncdxf.org/beacon/ and https://www.reversebeacon.net/main.php?rows=10&max_age=10,hours&hide=distance_km

Pirate beacons: https://www.hfunderground.com/wiki/High_Frequency_Beacon


RWM from Russia transmits CW dashes, see https://www.sigidwiki.com/wiki/RWM. Did an initial experiment with that. See linked page below. Can we 'see' that from Boston? Sorta: 

Transmitter RWM in Moscow transmits a CW waveform for around 8 minutes on the half hour, at frequencies that are close to WWV, namely (see https://en.wikipedia.org/wiki/RWM)  4.996 MHz with 5 kW and on 9.996 and 14.996 MHz with 8 kW
So at 15 MHz that's a wavelength of 20m. Should be workable at 2000 UT which is afternoon (4 to 5 pm). VOCAP above is for 8 kW transmit power. 

Web SDrs

MA http://sigmasdr.ddns.net:8073/

DC: http://na5b.com/

UK: http://thescotts.ddns.net:8073/.  


data files: 

websdr_recording_2023-08-04T04_48_54Z_10000.1kHz.wav

websdr_recording_2023-08-04T05_03_07Z_21273.5kHz.wav

websdr_recording_2023-08-04T05_08_46Z_10003.5kHz.wav

HF signal categorization

https://www.sigidwiki.com/wiki/Category:HF

SDR with detuning option: 

Selection of SDR that allows for MAC scripting, 14 or 16 bit digization. 

dual-receiver SDR but only runs on windows machines: https://www.sdrplay.com/rspduo/ 

wiki page with summary of SDRs: https://en.wikipedia.org/wiki/List_of_software-defined_radios#cite_note-Lunaris_SDR-64 

Airspy HF+ Discovery looks promising- mac SW at https://groups.io/g/airspy/topic/using_airspy_devices_on_macos/88509576?p= 


Parts list: 

itempart numbervendorpricenotesreferencesstatus
magnetic loop antennaDXE-RF-PRO-1BDX engineering675have one, need one

dxe-rf-pro-1b_vw.pdf

http://w6si.com/MagLoop/MagLoop-001-Intro.html

ordered 8/3/2023
Order #4433160

preamp
0.2 - 30 MHz
16 dB gain, 50 ohm 

DXE-RPA-2
250 eaBNC
12-18 V dc power at 150 mA
dxe-rpa-2.pdfordered

linear DC power supply for preamps

Tekpower TP3005T Variable Linear DC
Power Supply, 0-30V @ 0-5A 
amazon.com80provides clean regulated power to preamps
ordered
delay line for phase slipDB64SRS695BNC
asked Helen on Aug 3 
50 ohm signal combinerZMSC-2-6+minicircuits74BNCZMSC-2-2.pdfordered 8/3/2023 Fed Ex ground
order # M189BDEC83C0.
low pass 30 MHzBLP-30+minicircuits50BNC 
place this after the preamp

ordered 8/3/2023 Fed Ex ground
high pass at 2.6MHz
amazon
SMA, note there will be phase slips at WWV freq of 2.5MHz if this is used. 
Place it between antenna and preamp
https://www.amazon.com/gp/product/B01N9SHS7P/ref=ppx_yo_dt_b_asin_title_o00_s00?ie=UTF8&psc=1
SDR radioAirspy HF+ DiscoveryAirspy184SMA
ordered 8/3/2023
GPS-disciplined osc. GPSCSG V2.0 GPS Disciplined Oscillator
GPSDO GPS Signal Generator Dual Output
ebay 112SMA
Adjustable frequency: 10KHz-220MHz
- Frequency accuracy: ±0.2Hz
- Output level: 12dBm±2dB (can be customized to any value from -10dBm to 10dBm; amplitude can be calibrated)
- Frequency synthesizer crystal oscillator: TCXO
- Phase noise: -132dBc at 10KHz
- Output type: square wave
- Harmonic rejection: even harmonics are better than -50dBc and odd harmonics are better than -10dBc

Do we need a low pass filter on this? If so needs SMA connectors

can't find an online manual
https://www.ebay.com/itm/285200853562 


ordered 8/1/2023 for mid-Aug delivery

Fast storage scope option: 

We could just run the amplified signals from the two magloops straight into a fast digitizing scope. For the 10 MHz WWV station, let's imagine we digitize at 100 Msamples/sec. 
A pretty cheap 8 bit A/D scope can capture 14Mpoints, so around 7 Mpoints per channel per sample. That is 7/100 seconds or 70 msec of data, which is 7e5 cycles. Plenty!
External trigger input would allow us to lock onto GPS-disciplined oscillator. It can produce 200 MHz square wave that could trigger the scope. 

one scope option: https://www.rigolna.com/products/digital-oscilloscopes/dho4000/ 

A First attempt: 

an initial experiment, Aug 4 2023

HAMSCI resources: 

https://hamsci.org/cw-reverse-beacon-network-how-guide 

references

Operational HF DF systems employing real time superresolution processing.pdf



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