Hi Stefan
I see what you mean, so we have both been at it, (upsetting Mal some
more). :-)
What a beautiful clear clean bench surface you have, I had to
carefully frame my pictures after pushing aside the clutter.
http://photobucket.com/albums/dd243/radiotalk/xbmxvtr500ksml.jpg
73
Eddie G3ZJO
On 12/10/2012 17:03, Stefan Schäfer wrote:
MF!
Last night i built a transmit converter which allows me to
transmit WSPR
on 630m now.
Yes yes yes yes yes Mal, CW is preferred! But many OMs go to bed
quite
early i find. Not so their PCs, they run over night, and so my
transmitter will do this weekend if all goes right. :-) I'm not
present
in the shack anyway, so no chance for CW...
I'm using normal WSPR, not the slow versions.
Right now the first tests are running and i check if the system
becomes
to warm.
The design of this mixer is quite chaotic but i like it :-) It is
a
modular system...: First, a tone of 14700 Hz is generated by the
WSPR
program. Is is decoupled from anything by an audio isolating
transformer. This signal is applied to a SA612 mixer. The LO (461
kHz)
in this test setup comes fom my DDS VFO which is used in the first
VLF
experiments. The output looks very well as expected on the scope.
Filtering of mixing products is done in my MF meachanical filter
which
is use in front of the receiver normally! I've published the
nearly
perfect filter curve some weeks ago. Of course the sine wave
coming out
from the filter looks very well! This sine wave is applied to an
OP AMP
which is switched as a comparator. I've added a small hysteresis
(10
MOhm / 47k) to prevent an oscillating output when there is no
input
signal. Works well! The output of the OP AMP is fed to a ICL7667
(FET
driver) which makes a low impedant output. In series with 1 Ohm
and 1
uF this rectanfgular waveform is applied to a small ferrite toroid
with
a trifilar winding. So this output is again galvanically decoupled
from
the circuit and provides an opposite phase rectangular signal at
475.7
kHz.
Since my PA was/is designed to have a 4f input (1900 kHz -> 475
kHz
out) i had to make a tap behind the divider, so i have to take
care to
maintain the 50 % duty cycle in the new circuit. The new external
drive
signal from the converter is applied by a simple headphone
jack/plug! I
actually found a 3.5mm stereo-jack with dimensions 10mm x 5mm and
also
found a few holes to add this on the board. So the PA is now able
to
run as before and additionally with this new converter......
The AF signal levels and the LO signal level is critical. Choosing
wrong values will change the 50% duty cycle which will quickly
kill the
FETs in this PA design. So i'm using an old modified PC power
supply
that will shut down quickly if the current exceeds a certain
limit...
After writing this email the PA became hand warm so it looks all
fine.
I will go down to 50% TX duty cycle now and even receive during
the
breaks in WSPR. However the MF filter is now used for the TX so
the RX
performance may be slightly lowered...
Reports about my transmissions on 475.700 kHz are very
welcomed. I'm
also receiving and uploading to the WSPR database...
Maybe i will run the test until monday :-)
Best 73, Stefan/DK7FC
PS: https://dl.dropbox.com/u/19882028/MF/stuff.JPG
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