Hilltop rfi monitoring system
oct 2002
Intro
Daily plots
images for last 8 days.
yearly movies of hilltop frequency
bands.
Monthly plots of ism band
Monthly plots of 1325 Mhz band
pictures of system
History
schematics
System
modification history for high freq system
Introduction:
The hilltop rfi
monitoring system consists of an omni directional antenna covering
10Mhz to 1400 Mhz and a log periodic antenna that covers 1.7 Ghz to
10 Ghz. The antennas are mounted on the hilltop above the control
room and feed a receiver consisting of switches, filters,
amplifiers, and a spectrum analyzer (100Khz to 22 Ghz). The system
runs 24 hours a day under computer control. There are 19 frequency
bands that it steps through covering 10 Mhz to 10 Ghz. At each band
a 1 minute peak hold is taken, read back by the computer, and then
the setup is switched to the next band. Each frequency band is
sampled once every 19 minutes.
The data is written to disc and the daily
plots are generated at 4 am on the next day. The plots created are:
The
current daily plots are:
- Daily plots encompassing the previous day. There are 4 sets of
the plots:
- The average plots
are just the average over the day for each frequency bin.
- The image plots are
frequency vs time for each band.
- One plot has no bandpass correction
- The 2nd set has the minimum channel over the day used to
flatten the baseline. This distorts the true bandpass for
channels that always have interference but is it good for
removing the standing waves in the cables for the higher
frequencies.
- rms/mean.
- For each channel of each band, the rms is computed
for the entire day and then divided by the mean value. This
is a sensitive indicator of interference (except for rock
stable tones).
- .pdf plots are
created (2 plots per file) which give the best resolution and
can be blownup.
- .gif plots are also
provided for users that prefer them (although they are much
lower resolution).
- Daily average
- Freq by time:
- Freq by time with bandpass correction:
- Rms/Mean by channel:
images by frequency for last 8 days:
- The 0 to 10Ghz data is split into two files
- Low freq (0 to 1450 Mhz)
- High freq (1600 to 10000 Mhz)
- Each page holds the 8 dynamic spectra for a single frequency
(coming from the last 8 days).
- There is one set with no bandpass correction and a second with
the bandpass correction.
- The image stretch (0 to 255) is done on the logarithmic
data.
- the date is printed on the upper left of each dynamic spectra
as yymmdd.
- The freq is plotted as the x axis in Mhz
- Not much rfi is seen above 6500 Mhz
- the gain in front of the spectrum analyzer is not
sufficient to overcome the spectrum analyzer noise.
Notes on the images:
- 3200-3240. This rfi
has the same time dependence as the aerostat radar.
- 30nov10.
- 3200-1260 = 1940 .. so the aerostat may be mixing with the
cell phone rfi.
- This is probably in our system...
- 6500 noise step.
- The spectrum analyzer uses different
bands.
- There is a band edge at 6500 Mhz. The higher band looks like
it has a higher noise temp.
- 1400 Mhz band standing wave:
- period is 8.02 Mhz
- This is a standing wave distance of 18.7 meters
(61.3feet) in free space.49 feet if index of refraction=.8.
- It may be the cable from the antenna to the box. The bpc
version removes this.
- 4000-6500 Mhz extra noise
during day (08:00 to 18:00)
- 30nov10
- more easily seen in bpc version.
- above 6500 it probably disappears because Tsys of the
spectrum analyze goes up.
- I wonder it this is a heating problem?
- if so why does it start at 4000? The system uses the same
components 2000 -> 10000.
2300-2650 monitoring the ism band
The ism band (2400-2500Mhz) is used by a number
of unregulated devices. The lower edge of this band is adjacent to
the band used by the 2380 Mhz sband transmit/receive system.
Plots have been made from the hilltop monitoring
system showing the daily usage of 2350-2650 Mhz. The parameters are:
- The plots are updated 4am each morning for the previous
day/month.
- Each file contains one month worth of data
- Each page shows one day's worth of data
- The spectra are taken about every 20 minutes. They are plotted
on a db scale with an offset for display purposes.
- The bottom trace is the first plot of the day
(usually midnite start of the day).
- The top trace of the day is usually midnite (end of the
day .. unless the hilltop monitor system has trouble during the
day).
- Vertical dashed lines have been drawn at 2380 and 2400 Mhz
(for reference).
- The data read from the hilltop monitoring at sband has an
offset of 3.6 Mhz.
- This was determined by looking at the center of the 2380
xmter signal.
- If you look at this data with imgui, the interference will
be 3.6 Mhz higher than these plots..
- licensee's below 2380 Mhz (aug17)
-
call
|
company
|
freqRange
|
wqy2338
|
att
|
2305-2310
2350-2355
|
| wqy2339 |
att |
2310-2315
2355-2360
|
| wqy2340 |
att |
2315-2320
|
| wqy2341 |
att |
2345-2350
|
- att : [2305-2320],[2345-2360]
Monthly plots of ism band from
hilltop monitoring system:
Notes 2020:
- 200301: hilltop monitor K&L switchbox fails to
switch. no more sband data
Notes 2017:
- 170503: 2370 rfi appears.. continues through at least aug17
- did geographic fcc license search 15aug17 within 200
km of ao, no one is licensed for 2370 band.
- continues till 20sep19.. off the air from maria.
- as of 18nov17 still not back on the air.
Notes 2015:
- 150101: ism below 2400 Mhz
- 150301: below 2400 Mhz jumped up to 2425
- 150318: 2425 moved back down to straddle below 2400. occurred
during 430 xmter run
- 150810: jumped from below 2400 to have lower edge exactly on
2400 Mhz.
- 151229: 2370 rfi appears. looks like it moved up from 2345
Notes 2011:
- dual band rfi 2360-2340 seen when our 430 Mhz radar is
active.
- jan: 110112: 2380 Mhz rfi appears (micro wave link from radio rendentor tower).
- feb: radio
rendentor
tower turns off misbehaving micro wave link 22feb11.
2380 Mhz rfi goes away.
- mar: 24-28mar Ao430rdr.
- may:Ao430rdr on:05,19,26,
- jun: weaker rfi 2380
- jul: Ao430rdr :07-09,12,14,16,21,27-31
- aug:
- Ao430rdr: 01-11,19-20,25-30.
- 2408 band shifts down by 10 Mhz for 20 minutes on 31aug
- sep:
- oct:
- 05: 2390 band appears for about 3 hours. appears when 2530
band goes off.
- Found licences for 2525-2530 and 2535-2540 (ana G Mendez
tv broadcast) but no one at 2532.
- 08-12: 2408 band shifts down by 10 Mhz.
processing: x101/111012/ismrfi_hilltop.pro
Monitoring the 1325 band by month
The 1325 Mhz band covers 1200 to 1450 Mhz. It
contains most of the lband radars.
Monthly plots are done to monitor the status of the band. The
monthly processing is:
- the data from 1200 to 1410 Mhz is used (this contains most
radars)
- two dynamic spectra of all of the 1 minute peak holds
during the month for this band is made
- the vertical is day of month.
- The imgall spectra flags all of the radars
- the imgPS image flags the punta salinas frequency channels
- the avgSpc: is an average spectra for the month.
- top flags all radars
- bottom flags punta salinas radars.
processing: x101/rfi/hilltop/mk1325month.pro
Pictures of system
History
- 080520: unused kl2500 control board 11 switched for bad board
11. System back online.
- 080506: kl2500 switch controller board 11 error.. system
brought down to lab
- 121017: lightning
- blows up 20mhz to 1ghz amp at output (between
sw10 and sw11)
- High freq amp at antenna not working.
- 121024:
- high frequency data not being taken. (antenna amp in the
lab).
- Low freq data is being taken
- FO amp 1 is not longer in. using straight thru. Gain has
decreases for all but first 3 bands
- Changed attenuation settting
- Before if followed the ref level setting.
- Now it can be specifed 0,10,20.. or -1 to follow the ref
level setting (which usually left it at 10db)
- edited setuplf.dat so used attn 0db for all low freq
bands except first.
- 121105:
- high freq data started again (should have started it on
01nov12 but i didn't update the setup.dat file)
- Now using attn db=0 for all high freq (except the first
band 1600 to 3000 (to block sband xmiter).
- 130917: mv147 board used to acquire the data died. installed
an mv167 board.
- new board had 32 mhz cpu.. eprom was setup for 25 Mhz.. so
was running 32/25Mhz faster in waiting for spectra.
- 131026: temp fix timing problem. Just changed ticks/sec in
integration wait..
- 140303: fiber optic amp port 4 switch 10 died on 25feb14
- This was the straight thru mode position (switch 10,11 port
4).
- It was being used by the low freq bands (since 2- 1ghz amp
is not in)
- Moved straight thru to sw10,11 port 3.a
- also made port 1 straight thru (the amp is not in).
- edited:
- rfiRcvLib.h-RFIRCV_FOAMPID_BYPASS now index 2.. which is
port 3
- rfiRcvDat.h - rfiRcvFOAmpTbl. index 2 swpos 3, changed
cfr,bandwidth to straight thru
- /share/rfidata/data/setups.h - explicitly set foamp
to 3 for < 1ghz if's
- 140912 - took 167 out.. used for pnt cpu. installed 25 Mhz167
board.
- the eeproms were set to 32Mhz cpu and this was a 25 Mhz cpu.
I ran cpuspeed() to correct this, but i forgot to reboot the
computer (it sets the ticks/sec at boot time). So we ran until
07oct14 with longer integrations (80 secs) rather than
60.
- 141007: rebooted rfi crate so correct cpuspeed in use. not
integrating for 60 secs.
- 141114 (8am) -> 141117 (8am) the spectrum analyzer was not
changing the setup.
- deleted the 1411 14->16 files.
- 150824 - vme rfi crate power supply fails.. no data till
31aug15
- 150831 - intfMon program now run on linux.
- 150902 : ac unit in rfi shack replace.. it had been blowing
warm air for awhile
- looking at the 1325Mhz rfi plots.. june looked ok, july
starts to show a gain change during the day, and aug has it
more pronounced.. so the ac probably started failing in jul15.
- 191122 : 620-830 filter. moved sw4,7 swnum 2 to sw4,7 swnum 4
(swnum2 wasn't working).
- 200301: hilltop monitor K&L switchbox fails to
switch.
- 200507: hardcoded intfMon program to only use
lband. So we leave K&L switch box on a single setting and
never switch
- So only the 1325 lband data available.
- 201221: galfas2 server gets os upgrade. forgot to put in
changes to talk to hilltop monitor box. No data till:
schematics
Schematic of electronics
inside huffman box (amps, filters, switches) (.pdf)
- notes on schematic
- 191122 - 620-830 Mhz filter. was sw4,7 position 2 move to
position 4. this band hasn't worked since jan18.
- change in aosoft/include/rfiRcvDat.h then recompile
aosoft/src/vwconvert/libsrc/rfircv/ and intfMon.c
- antenna input: sw 1
- sw1-pos 1 - low freq input
- sw1-pos 2 - noise diode high
- sw1- pos ? - noise diode low (has attenuator inline with
diodej
- sw1-pos5 - outside of box a5 (ant 5) has high
freq attached.
- i think the a5 goes directly to the a-5 outside box is
high freq cable. I think it goes directly to the 1-10ghz
amp.
- sw10,11 switch between amps. These are referred to as the
fiber optic amps.
- sw11 shows 4 positions. This switch has at least 5
positions (since the high freq single connects to pos 5).
diagram of high frequency mast
(.pdf)
System
modification history for the 1 - 10 Ghz receiver:
The figure below shows the layout for the 1 to 10
Ghz receiver. A, B, and C are amplifiers. They have been installed,
removed, changed, etc.. over time.
Notes:
Noise floor 2.2 Ghz is the daily average connector to the full
receiver.
The cable is 50 feet of low loss heliax. 3.2 db loss at 2 Ghz
to 8db at 10Ghz.
Since apr02 there have been harmonics of the 1950 cellular
phone band. At 3900 Mhz the level was -25 dbm in oct, -33 dbm in
june, and not there before 29apr02 (with a noise floor of
-58 dbm).
Log of changes to high freq receiver
| date |
ampA |
ampB |
ampC |
R1
db |
R2
db |
Noise
Floor
2.2Ghz |
Noise
Flr
3.5Ghz |
Notes |
04nov12
|
|
|
|
|
|
|
|
hi freq system was off
20oct12-04nov12. ant,ampa brought down to lab after
lightning strike.Found broken cable inside box with amp A.
replaced cable, installed.
Started running high freq with 10db attn out for all freq
above 2200. Doesn't make a difference in the noise floor.
Should think about putting it back in
|
17jan08
|
|
|
|
|
|
|
|
system reinstalled on
hilltop. monitoring restarted.
|
15may07
|
|
|
|
|
|
|
|
spectrum analyzer brought
down for maintenance during painting shutdown.
|
| 10jan06 |
|
|
|
|
|
|
|
New ac in rfi shack. Old one was failing. |
| 19sep05 |
replaces |
replaced |
|
replaced |
|
|
|
noise floor looks ok, but signals absent. |
| 26aug05 |
blew |
blew |
|
blew |
|
|
|
general power outage,lightning |
| 29oct02 |
|
|
|
|
|
|
|
Found that 50 ft cable connector at box had come
loose (the shield). Tightened it up. |
| 23oct02 |
g=25db |
g=25db |
0 |
3 |
0 |
-58 |
-60 |
didn't change by 20 db.. |
| 22oct02 |
g=25db |
g=dbdb |
g=30db |
3 |
10 |
-44 |
-45 |
added swept elbows box to specAnalyzer
added R1
replaced short cable R1 to input of box. |
| 9sep02 |
g=25db
1.7Nf |
g=25db
1.7Nf |
g=30db
2.8Nf |
0 |
10 |
-41 |
-42 |
back on the air, system saturates
with 1.9Ghz birdie |
| 22aug02 |
|
|
|
|
|
|
|
amps blown, off the air |
| 01aug02 |
|
|
|
0 |
|
-50 |
-42 |
|
| 16may02 |
|
|
|
0 |
|
-50 |
-48 |
back on the air, not sure which amps were installed |
| 29apr02 |
|
|
|
0 |
|
-58 |
-57 |
blew out 30apr02 |
| 25feb02 |
|
|
|
0 |
|
-55 |
-57 |
|
| 24sep01 |
|
|
|
0 |
|
-55 |
-56 |
|
Noise floor:
On 28oct02 we measured the noise floor of the spectrum analyzer
using peak hold. The noise floor is a function of the input
antenuation, resolution bandwidth, and the reference level. For the
measurement we had the 10db attenuator in. The resolution bandwidth
and the reference level used is in the table.
We then measured the noise floor with the high frequency antenna,
ampA, and the 50 foot cable plugged into the spectrum analyzer
(the 10db pad was always in) to see how much more gain we needed
to get above the spectrum analyz noise floor. Finally we
plugged in the whole high freq receiver (ampA,cable,3db pad,
ampB(25db) and recorded the noise floor. The spectrum analyzer
steps bands near 6500 Mhz.
Noise floor measurements 29oct02
| freq (Mhz) |
ref
Level
dbm |
rbw
Mhz |
spectrum
analyzer
floor(dbm) |
antenna
ampA,cable
floor(dbm) |
antenna
full rcvr
floor(dbm) |
| |
|
|
low freq |
|
|
| 100 |
0 |
.1 |
-78 |
|
|
| 500 |
0 |
.1 |
-76 |
|
|
| 1000 |
0 |
.1 |
-75 |
|
|
| 1300 |
0 |
.1 |
-75 |
|
|
| 1400 |
-20 |
.1 |
-79 |
|
|
| |
|
|
hi freq |
|
|
| 1000 |
0 |
3 |
-63 |
-63 |
-64(800Mhz) |
| 2000 |
0 |
3 |
-62.5 |
-62 |
-57 |
| 3000 |
0 |
3 |
-62 |
-62.5 |
-60 |
| 4000 |
0 |
3 |
-63 |
-61 |
-61 |
| 5000 |
0 |
3 |
-62.5 |
-62.6 |
-60 |
| 6000 |
0 |
3 |
-62 |
-62 |
-61 |
| 7000 |
0 |
3 |
-58 |
-58 |
-58 |
| 8000 |
0 |
3 |
-56 |
-56.5 |
-56.2 |
| 9000 |
0 |
3 |
-56 |
-56 |
-57 |
| 10000 |
0 |
3 |
-56 |
-56 |
-57 |
Amp A with the 50 foot cable is not above the spectrum analyzer
noise floor.
Amp A, cable, 3db pad, ampB(25db) is above the noise floor at 2ghz
but by 3 ghz the noise floor is being set by the spectrum
analyzer. We probably could use 10db more but may then have
problems with harmonics.
- the online datataking program is intfMon. In runs on the rfi
sbc in the rfi vme crate
- Source location:
- /home/phil/vw/intfM/Progs/intfMon.c
- include files: /home/phil/vw/h
- rfiRcvLib.h .. defines structures and defines for each
rcvr band we use
- rfiRcvDat.h .. fills in the structures from rfiRcvLib.h
with the switch positions for each freq band.
- setup file to run program. This is read by intfMon at startup.
- /share/rfidat/data/setup.dat
- Each line of this files specifies a receiver band to take
data on. The program continually loops through all of these.
- a -1 in the antenna number field tells the program to
- look at the cfr for this entry.
- Find this center freq in the rfiRcvFilterTbl[]
(defined in rfiRcvDat.h)
- Use the switch settings found theree.
- This is used for the low freq 0-1400 Mhz disc cone.
- the high freq ant specifies each band (since the changes
only occur in the spectrum analyzer).
- The filter id field is an index into the rfiRcFilterTbl[]
defined in rfiRcvDat.h).
- the index is filterId -1.
- This gives most info about how to setup the path.
- Antenna numbers/IDs
- These are the numbers marked on the outside of the huffman
box where the various antenna cables enter
-
antId
|
source
|
destination
|
1
|
low freq disc cone
|
sw1 pos1
|
2
|
noise diode (hi)
|
sw1 pos2
|
3
|
noise diode
(low..withpad)
|
sw1 pos3
|
4
|
not used?
|
|
5
|
1-10Ghz freq
|
goes to 1-10Ghz amp
|
- The noise diodes need a voltage source to drive them. I
don't see any cable connect to them
- sw1Pos5 has a load on it (since high freq doesn't go thru
sw1 (check..)
- fiber optic amps (sw10,11).
- foAmpNum in setup.dat and rfiRcvFilterTbl is index-1 into
rfiRcvFOAmpTbl. This table specifies sw10,11 and other info.
-
fiberOpticAmp
|
sw10
|
sw11
|
Notes
|
0
|
4
|
4
|
same as foAmp4
|
1
|
1
|
1
|
20-1ghz 36.5db gain
|
2
|
2
|
2
|
1-2ghz 36.4 db gain
|
3
|
|
|
not used
|
4
|
4
|
4
|
straight thru cable
|
5
|
4
|
5
|
high freq cable
connects directly to sw11pos5
|
- Looking at the code gets a little confusing since the switch
positions count from 1 but the table indices count from 0.
- High freq observing.
- High freq observing used filter number 15. This is the last
entry in the rfiRcvFilterTbl[]. The important entries are:
- sw2P1,sw9P3 .. i don't think these are used.
- DantNum (default) 5.
- This is only for reference. The signal goes
Ant5->hfAmp->sw11 pos 5
- FOampNum=5
- The high freq antenna has an amp out at the antenna.
- The signal comes into ant-5 at the top of the huffman box.
- The signal then goes directly to the high freq amp.
- From the high freq amp the signal goes to sw11 pos 5.
So all you really have to do to select the high freq observing
is to select sw11 pos5.
home_~phil
