30 Jul 2018
HAARP 80m WSPR test
A reminder that WI2XFX, in Alaska, will be on the air tonight on 3.5926 USB dial (2300z for about 30 minutes) with a huge ERP on WSPR using the HAARP antennas. See the ARRL site for more details. I may try looking for it using my earth electrode "antenna" in the ground.
10m FT8
For a change today I am on 10m FT8. Although an earlier CQ got no response I have already spotted an Italian.
UPDATE 0858z: Quite a bit of Es already today on 10m FT8 as the map shows.
UPDATE 1514z: 263 different stations spotted on 10m FT8 RX today including the USA and Canada- and we are approaching sunspot minimum. I shall probably remain on until about 1900z tonight when I need the rig for another band (2m FM net) and then the HAARP 80m WSPR test.
UPDATE 1710z: So far 342 different stations on 10m FT8 today in 5 continents. With FT8 who needs sunspots!
UPDATE 1514z: 263 different stations spotted on 10m FT8 RX today including the USA and Canada- and we are approaching sunspot minimum. I shall probably remain on until about 1900z tonight when I need the rig for another band (2m FM net) and then the HAARP 80m WSPR test.
UPDATE 1710z: So far 342 different stations on 10m FT8 today in 5 continents. With FT8 who needs sunspots!
29 Jul 2018
Now QRT
On both 6m and 10m I have now gone QRT and disconnected everything. I noticed a CT calling "CQ NA" , although I am not sure if he was copying stations from "across the pond" on 6m FT8.
Tomorrow I may try 10m FT8, although I want to see if I can see the 80m WSPR test from the HAARP station in Alaska in the late evening UK time.
Tomorrow I may try 10m FT8, although I want to see if I can see the 80m WSPR test from the HAARP station in Alaska in the late evening UK time.
6m FT8 RX
UPDATE 1018z: So far 42 different stations in 17 countries spotted on 6m FT8 RX this morning.
UPDATE 1552z: 152 different stations spotted so far today on 6m FT8 RX.
UPDATE 1906z: Currently 217 different stations spotted in just the last day on 6m FT8 RX. 59 different DXCC countries spotted on 6m FT8 RX since Friday lunchtime. Not bad for a simple RX antenna (V2000 omni vertical) fed with CB coax.
Simple pleasures - NOT amateur radio
10m WSPR TX (500mW)
As is usual, I am on 10m WSPR TX again. Best DX spot so far this morning is SQ3XZ (1113km). This is clearly Es.
UPDATE 1550z: 62 spots today by 7 different stations on 10m WSPR so far today.
UPDATE 1550z: 62 spots today by 7 different stations on 10m WSPR so far today.
LF transmissions with ferrite rod TX antenna
A week ago a unique LF test took place in Germany by Marcus, DF6NM.
Under small signal conditions (-17 dBm), the electric parameters at 137.5 kHz were
L = 0.50 mH, R = 0.62 ohm, Q = 690.
From the induced voltage we can calculate the flux density in the middle of the rod as
B = U / n / a / omega = 48 mT (rms),
decreasing approximately linearly toward the ends (similar to a small electric dipole). The average Bav=24 mT then results in a dipole moment of
iA = V Bav / µ0 = 156 cm^3 * 24 mT / µ0 = 3.0 Am^2
which results in a radiated power
EMRP = 62.34 kohm * iA^2 / lambda^4 = 25 nW.
Thus the efficiency of this transmit antenna is only 1 ppb !
Anyway I attempted to detect the tiny signal on the DL0AO LF grabber, 48 km from here:
https://lf.u01.de
Transmitting on 137.780 kHz (6:29 to 8:22 UT) indeed produced a detectable trace in the QRSS-60 window (below the Slonim Loran line on 137781.25 Hz). Then I attempted to send a 4-character EbNaut transmission on 137.510 KHz, which was successfully decoded with some margin.
Now if that's not QRP... anyway fascinating, considering that the small ferrite antenna might be carried in a handbag, buried in the ground or taken to a cave.
Best 73,
Markus (DF6NM)
This morning
I attempted to transmit from a small ferrite antenna. It
consists of a number of 9 mm diameter ferrite rods, with 7
bundled in parallel. The bundles were stacked with overlap
to ~ 35 cm total length, and n=47 turns of litz wire were
wound around the middle. Total ferrite cross section is
a=4.45 cm^2 and volume V=156 cm^3, weighing 0.77 kg
(including the coil). The coil was resonated and matched
by several 1 nF high-Q ceramic capacitors.
Under small signal conditions (-17 dBm), the electric parameters at 137.5 kHz were
L = 0.50 mH, R = 0.62 ohm, Q = 690.
Applying
about half a watt significantly increased inductance and
losses, and the tuning became sharply hysteretic
("jumpy"). For fine tuning, a small rod was placed at a
variable distance beside the antenna.
Then I
connected my PA and drove about 25 Watts into the antenna.
Losses and inductance increased further:
I = 1.3 A, U = 867 V (rms), L = 0.77 mH, R = 14.8 ohmn, Q = 45,
with the Q-factor now so low that tuning jumps disappeared again. The central part under the coil became quite hot, so a tiny fan was added which held the steady-state temperature at ~55 °C.
I = 1.3 A, U = 867 V (rms), L = 0.77 mH, R = 14.8 ohmn, Q = 45,
with the Q-factor now so low that tuning jumps disappeared again. The central part under the coil became quite hot, so a tiny fan was added which held the steady-state temperature at ~55 °C.
From the induced voltage we can calculate the flux density in the middle of the rod as
B = U / n / a / omega = 48 mT (rms),
decreasing approximately linearly toward the ends (similar to a small electric dipole). The average Bav=24 mT then results in a dipole moment of
iA = V Bav / µ0 = 156 cm^3 * 24 mT / µ0 = 3.0 Am^2
which results in a radiated power
EMRP = 62.34 kohm * iA^2 / lambda^4 = 25 nW.
Thus the efficiency of this transmit antenna is only 1 ppb !
Anyway I attempted to detect the tiny signal on the DL0AO LF grabber, 48 km from here:
https://lf.u01.de
Transmitting on 137.780 kHz (6:29 to 8:22 UT) indeed produced a detectable trace in the QRSS-60 window (below the Slonim Loran line on 137781.25 Hz). Then I attempted to send a 4-character EbNaut transmission on 137.510 KHz, which was successfully decoded with some margin.
Now if that's not QRP... anyway fascinating, considering that the small ferrite antenna might be carried in a handbag, buried in the ground or taken to a cave.
Best 73,
Markus (DF6NM)
28 Jul 2018
Echolink QSO
Just had a very FB QSO with a USA station via a New Jersey repeater using Echolink. This was a chat. He even managed to understand my poor voice!
VLF DX tests with earth-electrode antennas
Stefan DK7FC is transmitting 75W into an earth-electrode "antenna" and seeing if he leaves a trace on the RX at Todmorden in the UK.
"Hi VLF,
I'm sitting in my car while writing this email. I'm in JN39WI96GX and i transmit on 8270.000 Hz with a GPS locked signal generator into an about 450 m long earth antenna using two guide rails as the earth electrodes on both ends. On each end there are 16 (18) massive T-T poles holding the guide rail, providing a super good earth coupling. I measured that they are connected to each other.
The transmitter is on the air since 9:08 UTC running 550 mA with just 75 W DC inout power into my hand warm lossy linear mode VLF PA!
I'm amazed about the low losses! At DC i got 447 mA at 50.9 V. The wire is 0.4 mm diameter so it has 63 Ohm. That means the ground loss is just 50 Ohm !!!! Amazing! And i have no efforts to build up a ground connection here, i just need to connect the wire. Since the wire losses are higher than the ground losses, i can get maybe 2 dB more signal when buying some better wire. I already found a source that offers 0.75 mm^2 100 m loudspeaker cable (i.e. 200m wire)for just 13 EUR....
BTW i even have an ugly old scope here which is battery powered. I can see that the phase of voltage and current is slightly inductive, maybe 30 deg or so. So i could series resonate the antenna with some C. This is for the next experiment...
The signal becomes visible on my grabber now, in 424 uHz and also some bright pixels in the 3.8 mHz window.
I'm going to stop the carrier at 10:08 UTC, after 1 hour. Then i'll continue on 5.17 kHz!
BTW the antenna , if it works like a real loop, is beaming directly to Paul Nicholson ;-)
73, Stefan"
"Hi VLF,
I'm sitting in my car while writing this email. I'm in JN39WI96GX and i transmit on 8270.000 Hz with a GPS locked signal generator into an about 450 m long earth antenna using two guide rails as the earth electrodes on both ends. On each end there are 16 (18) massive T-T poles holding the guide rail, providing a super good earth coupling. I measured that they are connected to each other.
The transmitter is on the air since 9:08 UTC running 550 mA with just 75 W DC inout power into my hand warm lossy linear mode VLF PA!
I'm amazed about the low losses! At DC i got 447 mA at 50.9 V. The wire is 0.4 mm diameter so it has 63 Ohm. That means the ground loss is just 50 Ohm !!!! Amazing! And i have no efforts to build up a ground connection here, i just need to connect the wire. Since the wire losses are higher than the ground losses, i can get maybe 2 dB more signal when buying some better wire. I already found a source that offers 0.75 mm^2 100 m loudspeaker cable (i.e. 200m wire)for just 13 EUR....
BTW i even have an ugly old scope here which is battery powered. I can see that the phase of voltage and current is slightly inductive, maybe 30 deg or so. So i could series resonate the antenna with some C. This is for the next experiment...
The signal becomes visible on my grabber now, in 424 uHz and also some bright pixels in the 3.8 mHz window.
I'm going to stop the carrier at 10:08 UTC, after 1 hour. Then i'll continue on 5.17 kHz!
BTW the antenna , if it works like a real loop, is beaming directly to Paul Nicholson ;-)
73, Stefan"
Subscribe to:
Posts (Atom)
