first light (daytime with 3 tx)

18jun15

txstate: when we changed the hf tx state
looking at the data

We ran with 3 transmitters on the sky on 18jun15 during the day. We then took some data with the 430 Mhz transmitter

Setup:

The experiment was done at 5.125 Mhz using the 3 tangential antennas. We had trouble with tx 5 so we ended up using:

We started with what he thought was the correct circular. I've called this pol1 in the table below.

During the observation we turned the heater on, off as well as switching polarization

pol1 is the pol we started with. Dana claims this is the correct pol
pol2 is the other circular polarization.
The switches were made by mike sulzer talking to dana over the phone to "switch now". I was trying to write these times down as they happened.

looking at some of the total power plots, it looks like some of the times were recorded were not correct (signal appears when hf off).

When the hf transmitter state was changed
time [ast] hhmmss	hf state 1-on,0-off	pol	Notes
170700	1	1
170900	1	2	pol change time not exact
171009	0	2
171014	1	2
171018	0	2
171021	1	2
171026	0	2
171031	1	2
171034	0	2
171037	1	2
171059	0	2
171115	1	2
171132	1	1	start pol change
171201	1	1	on pol1
171211	0	1
171225	1	1
171240	0	1
171302	1	1
171315	0	1
171330	1	1
171345	0	1
171400	1	1
171415	0	1
171430	1	1
171445	0	1
171500	1	1
171530	1	1	this time is a guess. not recorded
171600	0	2
171615	1	2
171630	0	2
171645	1	2
171700	0	2
171715	1	2
171745	0	2
171800	1	2
171815	0	2
171830	1	2
171845	0	2
171900	1	2

I used the standard plasma line processing to generate a movie with 1 and 10 second integrations.

This processing removes the spectral baseline with a 96 khz median filter. This will smear out broad features.
The movie dynamic was probably scaled to 3 sigma on the noise.

We got a return at 109 Km. We did not resolve it in range (300m) using the 2usec baud.
movie with 10 second integration (.avi for linux) (.mov .. quicktime format)
movie with 1 second integration (avi for linux) (.mov quicktime format)

To see when things happened, i made images of total pwr (in rang) vs time for each data file

This is before decoding so any strong returns will be smeared over the 440usec pulse width (66 km)
I kept 100 to 200 Km.
a bandpass correction was done using 190-200km averaged over each file.
There at 109 secs in each file, (10900 10 ms ipps)
To get the image to fit on the display:

During a polarization switch, we were probably not transmitting a pure circular, (changed the phase of 1 dipole at a time).
Images were made with:

looks like we were off with some of the recorded times
The title of each image contains the start time (ast) as well as the state of hf xmiter when the file started.

5 sigma images	50 sigma images	Notes
t1193_20150618_000.shs	t1193_20150618_000.shs	changing pols middle of file
t1193_20150618_001.shs	t1193_20150618_001.shs	looks like the times are off here
t1193_20150618_002.shs	t1193_20150618_002.shs	contains the strongest echo (more info)
t1193_20150618_003.shs	t1193_20150618_003.shs
t1193_20150618_004.shs	t1193_20150618_004.shs
t1193_20150618_005.shs	t1193_20150618_005.shs
t1193_20150618_006.shs	t1193_20150618_006.shs	the last hf switch occurred in this file
t1193_20150618_007.shs	t1193_20150618_007.shs	hf on pol2 entire file
t1193_20150618_008.shs	t1193_20150618_008.shs	hf on pol2 entire file

The strongest echo in file 2 (at 2.67 seconds) was seen in only 1 ipp (10 ms ipps)
Page 1 plots total power in each sample (no decoding) vs range (km).
Page 2 plots total power in each sample (no decoding) vs time usecs from rf pulse.
The top frame shows 90 to 180 km (600 to 1200 usecs)
the middle frame shows the start of the return echo
the bottom frame shows the end of the strong return echo.
the red line is the duration of the pulse.

processing: x101/150618/tptosave.pro, tpimg.pro,ipppwr.pro

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