430 dome PolB Jennings relay APR19
23APR19
Links:
resolution
: 30apr19 the polB jennings relay was replaced. Tsys for both
channels are now the same.
The problem.
The tsys measurements for gr
430 polB has been jumping around day to day.
The plots show tsys
polA,B and their difference for jan19->APR19 (.ps) (.pdf)
- Top tsys polA (black), polB (red) from the daily
measurements (jan19->APR19)
- bottom: Tsys polA - polB.
- occasionally Tsys polB jumps over 30 K higher than polA.
Switching the load/sky jennings relay.
On 23APR19 around 14:30 i did multiple gr430 tsys
measurements. Between the measurements i switched the jenning
switch sky->load -> sky (staying in the lrr side of the
switch. The results were:
hh:mm:ss TsysA TsysB
02:09:57 72.9 73.6 .. early miring
14:33:59 67.5 196.9 ..
start of test.. switch sky->load->sky between measurements
14:37:01 67.9 194.6
14:38:53 67.7 196.1
14:41:53 68.2 84.6
14:43:48 68.7 85.2
14:45:25 71.7 88.9
14:48:19 67.6 77.5
14:49:53 66.9 77.5 ..
endtest
The first few switches made no difference, tsysPolb remained at 195
K.
The switch prior to 14:41:53 brought the tsys polB down to 88.9. The
switch prior to 14:48:19 lowered it to 77.5K
winking cal data while going sky->load->sky.
Setup:
- blank sky was tracked using the 430gr receiver
- the 25 Hz hardware winking cal was used (lcorcal)
- the mock spectrometer setup: 2048 channels, 2ms dumps,160MHz
clock. 22.504 MHz bw, centered at 432 MHz.
- at 2ms sampling, there are 10 spectra for each calon, 10
spectra for each cal off.
- data was taken continuously for about 200 seconds.
- The sky load switch:
- start on sky (lrr).. for 70 secs
- switch to load for 3 secs, then back to sky..
- repeat the above about every 20 seconds.
processing the data:
- use masgethwcal to separate the calon, caloff spectra.
- using the first 40 seconds on data (no load switching),
compute the rms/mean for each channel
- to a robust linear fit the rms, excluding points above 3
sigma.
- use the rms points within 3 sigma to compute the total power
for all of the calon,caloff spectra (this is to remove rfi).
- compute the cal deflection in device units: tpOn - tpOff
- the the lcorcal value in kelvins (there is only one measured
value for each pol ( at 430 MHz)
- Scale the tpOff from device to kelvins
(calValK/median(tpOff)
plots of Tsys vs time while
moving the sky,load switch (.ps) (.pdf)
- The daily tsys measurements use 1 MHz about 431MHz to
measure tsys.
- these measurements used about 18 MHz about 432 MHz to measure
tsys.
- The cal value used was the same for each (since we only have a
single value). If the cal output changes over the band,
this could cause some differences in the measured tsys values.
- Top: tsys vs time.. full scale.
- While on load, polA is about 300K, while polb is only 240 K.
- It may be that polB is not making a good contact with the
load.
- Bottom:
- blowup of tsys values about the sky values
- After the first and 3rd sky->load-> sky switches,
- tsys polB did not come back to the previous sky
value.
- after the 3 rd switch , it continued to rise till the next
switch.
SUMMARY:
- The polB jennings relay (or maybe the switch driver) is bad.
- moving from sky to load and back to sky can cause Tsys to dump
up by up to 130 K.
- Sometimes the tsys will continue to drift for 10's of seconds
after the switch.
- If tsysPolB is high, going sky->load-> sky may fix it..
processing: x101/190423/430mock.pro
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