Since I have only been playing with crystal sets seriously for a few years, and much of my effort has been expended in developing sets that my students could build with solid results, going for optimum results has not always been my goal; rather, I have concentrated on reliability, ease of construction and operation, and cost. Still, I do experiment from time to time to see what can be achieved with a set that for years was relegated to the "toy" category. Here is a collection of things I have tried recently, and the results which may apply only to my type of location, but which I offer in the way of second hand experience for you.
ANTENNA STUFF:
a. I have a 180 foot or
so antenna up in the air with a decent cold water pipe ground.
My daughter's set uses a 60 foot antenna grounded to the house electrical
system. When using my antenna tuner with the big antenna, I rarely
have need to change the coil tap or capacitor position in the BC band and
usually use only the first couple of taps ( 10 to 20 turns). With
her setup, changing the coil tap over the band is necessary, as would be
expected from a short antenna. When I tried to use the electrical
ground with my antenna, I really got disappointing results, except
with the two locals at the top of the band - guess the length of wire in
the house wiring made the antenna/ ground system act like a dipole.
I intend to get daughter a better ground and see how that works.
The antenna tuner is configured in an L pattern, and is connected to the
set via a small coupling coil.
b. The L antenna tuner
doesn't help much on signal strength with the long antenna, but it does
cut down on the 6 MHz stations from Radio Havana and World Harvest Radio
- they still get through, and I plan to try a wave trap to cut them down
further.
c. There it was; 1200
feet of vertical tower, just waiting for me to hook up to. Too bad
the tower was solidly grounded. Since I didn't have free reign to
experiment, I am now looking at some way to tap into that hunk of metal
with some type of unintrusive matching network.
d. Okay, this time I have
a tower, up in the Blue Ridge Mountains. Fire tower that is
unused but open to public. Tower is only 30 feet high, but on top
of a 2000 foot mountain. This time I have 200 feet of antenna, some
ground wire, and a couple of rigs, tuner, wave trap etc. Results?
Nada. Couldn't get a good ground connection, and didn't have time,
materials, or inclination to try to rig a counterpoise, drive a metal rod
into the granite, erect a dipole... I could have cried.
Lessons learned: take a friend, scout the site before you try
it, and come loaded for bear. Having read the exploits of several
ham dxpeditions, I should have known better. With crystal sets, you
just can't take anything for granted, 'cuz you just can't turn up the gain,
or settle for a little less efficiency from a short antenna, and
all the things that hams can sometimes get away with. Maybe my next
dxpedition should be to the "big city" with a box loop antenna - hi.
e. Back to home base.
I have been working hard to optimize my rig to get more dx stations, and
have been quite successful lately. Just a year or so ago, I got only
3 or 4 locals, and that was it; today, I get all 4 locals solid, a 50 kw
station about 80 miles away solid, and routinely get 3-6 daytime 5 kw stations
about 70 miles away. At night, I get a grunch of very distant stations,
some so often that I use them for "dial markers" when I am looking for
new ones. I have experimented with different coils, detectors, headphones,
etc., and just recently took a Peanut special and got dx with it.
This last puzzled me, since the coil I was using one was one from an old
oatbox special, and the "rig", to use the term loosely, was strung out
all over the table and hooked together with alligator clips. I was
positive I had tried this long before, but without the good results.
Then, I decided to do some investigating, and so I started trying different
combinations to see what didn't work. I very quickly degraded
to my situation of a year ago. Bottom line; the antenna tuner,hooked
up as shown on my antenna page, was the single most important factor in
getting good signals across the BC band and in cutting out the "ghost"
hf stations. I had been using it routinely for several months, with
little thought, and, once I found the best setting, seldom had reason to
adjust it as I tuned across the band. Even when I fiddled with it,
I kept coming back to the same settings. As I noted earlier, with
a short antenna, more adjustment was needed. Also, a good earth ground
is essential as well. Here I was experimenting to get the "ultimate"
set, and the antenna and the tuner were doing all the heavy lifting.
My recommendation to you out there in cyberspace, after you get an ok set,
and have a good antenna and ground in place, your very next project should
be an antenna tuner. I see some more elegant rigs on the web these
days, a vast improvement over a short year ago, and the better ones make
provision for antenna tuning. Look on the Crystal Set Radio Club
pictures page for a couple of them (you have to join to see the pictures).
f. I put up a 50 foot
long double-wire sloping antenna, about 5 feet up to 40 feet off the ground,
to see what a shorter antenna than my 200 foot random wire antenna would
do. Actually worked pretty well, but I had to work a bit harder with
tuning the antenna to get all my daytime stations, and lost a few dB of
sensitivity. On summertime dx at night, it got some stations the
big antenna didn't, and vice versa. Still, it was a pretty good antenna.
g. On to the next step
- took down the 50 footer, and put in its place a 30 foot single wire antenna
- this is wire "out the window", it you will. At this point I really
had to get serious about antenna tuning. Compared to the big antenna,
I lost up to 12 dB of signal in the low part of the band, and had to retune
the antenna every hundred kHz or so, particularly at the low frequency
part of the band. I also had to abandon my standard L-antenna tuner,
eliminate the small antenna coupling coil, and go with one where
the antenna tuner coil itself is loose coupled to the tuning coil.
With my absolute best sound powered headphones I could just barely hear
all the 11 daytime stations I can routinely get ( I call them the big 5
and the small 6). The big 5 all were still very clear and strong
enough with my Mouser earplug, but with the plug I lost a few of the small
6. Then I cheated, and hooked up my Radio Shack amplifier, and got
them all back. Incidentally, this is a nice little amp for about
12 bucks, and has a little speaker; you can also plug phones into it, and
I found that a dollar store set of stereo phones, modified to be
parallel and to a mono plug worked fine with it. I don't plan to
try a shorter antenna anytime soon, but personally feel that anything shorter
is a waste of my time for my location. If you are one of those unfortunates
that has to suffer with a poor antenna setup, remember that you (1) really
need to use an antenna tuner and (2) a simple audio amp comes in
handy. I think my next antenna experiment will be with a length of
pvc pipe wound with a hundred feet or so of wire.
h. The big antenna fell
down, and, not caring to break out the fishing weights and nylon line in
the heat, I replaced it with a 60 foot section flattop of two parallel
wires, about 28 feet up, fed with a single 60 foot wire out the window.
Works pretty well, but it's summer, and the real test will come in the
winter dx season.
DETECTORS:
a. Sometimes, just sometimes,
a second 1N34 in parallel with the first gave me almost 2 dB of increase
in signal strength. More was not better. Don't know why it
worked, but it even sounded slightly louder (2 dB is tough to detect aurally).
Diodes in series cut the signal strength, as expected. Of note is
that even when the second diode was known to be less sensitive, I still
got the increase in signal when I put it in parallel with the first.
b. Made a full wave bridge
of 1N34s. Using the normal optimum tap, I got a 3 dB decrease
in signal strength. Just in case I had unleveled the playing field
by not tapping higher on the coil to match impedance better, I put it across
the whole coil - got a whopping 6 dB increase in strength, but only for
the two loudest locals at the top of the band, and the rest of the band
disappeared with the attendant decrease in selectivity.
c. Okay, time to get serious
- used two diodes with a center tapped coil for a full wave network again.
No improvement over a single diode with a conventional optimum tap.
d. Got another earplug,
resistor, and diode, and put in parallel with the first, but with second
diode going in opposite direction - good signals in both plugs, but signal
in either was 3 dB less than with a single plug - might be worth the signal
loss to be able to use both ears - try this one again sometime on the weak
dx stations. Less trouble, if using crystal earplugs, is to just
put a second one in parallel with the first - you get about a 3 dB decrease
in signal, but you get to use both ears. Dave Cripes uses two plugs
under shooters muffs to cut the ambient noise and gets excellent results.
e. Biased a 1N34 with
a 1.5 volt battery through a 1 Megohm pot. With the crystal earplug
noticed a change in the tonal quality of the stations I was hearing - less
bass and more treble- right before I saturated the diode. No change
with a 2k magnetic headset. For my ear's frequency response, it helped
me find a previously unheard station, but intelligibility wasn't as good
as without the bias. Going to visit this again. Volume one
of the XSS collection indicates I should get better results even with a
1N34.
f. Heard of some guys
using a light emitting diode (LED), with bias if needed, as a detector
- even used the brightness of the diode as a tuning indicator. So
I tried the red LED in my RS 130 in 1 kit, and yes it detects with bias,
but not as well as a diode or even a BC or BE junction on a transistor,
which I also tried. My take is that if you can use a LED as a detector
and tuning indicator, you don't need much of an antenna. These same
guys probably find the 1N34 is being driven into saturation on the locals.
See you in the next DX contest, guys.
g. Tried biasing the B-E
junction of a 2N2222 transistor, just putting a 1 1/2 volt battery and
a 1 Megohm pot across it. Just before saturation, it had detection
comparable to a 1N34. Dave Cripe gets better results, but he uses
a different transistor - I have one of his super detectors, courtesy of
Larry, and sometimes it really shines, particularly on the really weak
signals, for which it was designed in the first place. His secret
is that he reverse biases the base-emitter junction of a small signal
transistor, and at about 6.8 volts the transistor goes into avalanche (whatever
that is); adjusting the bias to a current of about 2 uA, he claims
it is about 10 dB more sensistive than a 1N34A.
h. Philip Miller Tate
in Old Blighty graciously sent me a few OA47 gold band diodes in exchange
for some 1N34As. They all tested out as slightly more sensitive,
from 1 to 2 dB better, than an assortment of 1N34As I had on hand.
Not exactly a magic bullet, but every dB counts when you're going after
dx. Incidentally, they look suspiciously (exactly) like the 1N34A.
i. Philip sent me some
more diodes; AAZ 118 variety. These seemed to outperform the OA47.
All in all, however, the 1N34A "type" from Radio Shack is a best buy for
availability, reliability, and cost. Tests by me and others shows
that not all diodes are alike, and it definitely pays to try out several
until you get one you like.
j. Tapping the detector
down on the coil is a common design technique for best impedance matching
between detector/audio and tank circuit. Ben Tongue and Al Klase
have done some nice research on getting more out of the tank circuit by
using transformers to match the lower impedance of the detector and audio
to the higher impedance of the tank circuit, thereby getting a higher voltage
signal from the top of the tank circuit without a loss of circuit Q.
Ben also goes into great detail about selecting the proper diode to make
the best use of this technique. If you're not a techhie, just go
to his pages, get the recommended transformer, and do it. I found
that it works fine with most diodes, but a pair of Hewlett Packard Schottky
diodes in parallel gave me the best selectivity, particularly at night
when the dx stations crowd the band. During the day, the lowly 1N34A
is a bit more sensitive, and is the preferred detector then. The
AAZ118 was somewhere in between. Also tried a 2N404 transistor, but it
was much less sensitive. BTW, my station count went to 98 in the
last DX contest, so something is working.
k. Bill Wilson from Jacksonville,
AL scored 117 stations in the last contest - Bill biases everything he
uses for a detector, and claims good results even when biasing a '34.
I'll get back to you on this one.
COILS:
a. I just haven't been
able to make a ferrite core coil give me the results I get with a tp core.
I have gotten some good dx with a modified RS crystal set coil, adding
a coupling coil from the antenna instead of tapping the tuning coil, and
using about 1/3 of the tuning coil for the detector tap. Of course,
I also had to use the tuner and a wave trap, but it was nice dx.
b. On my links page, find
the G3XRT crystal set. I made the basket coil per the specifications
at that site, winding 75 turns of #26 enameled in a 2 inch diameter
coil. I used over 2 and under 1 instead of just over/under, in order
to further reduce distributed coil capacitance. I also used hot glue
to hold the coil together - worked pretty well. I only made the one
25 turn tap for the detector, intending to use a loose coupler for antenna
transfer - this worked pretty well too, since I wound the primary coil
on a toilet paper core, and it slipped right into the basket coil.
The coil was sensitive, had more inductance (about 350 uH) than I was expecting,
and was pretty sensitive. Selectivity didn't seem as good as my standard
selective coil wound on a tp core, and suppression of the HF intruders,
if anything, was only marginally better. Perhaps I need to look for
a better tap to improve that selectivity.
c. Made a
second basket coil using #24 enameled wire, this time using 80 turns with
taps at 20, 25, and 30 turns. Signal strength seems slightly better
with this coil, and all 3 taps work pretty well. Need to get some
quantitative data on both these coils.
d. For my latest contest
rig, I took some poster board and made some 4" diameter coil forms, then
wound them with #20 solid plastic coated hookup wire. Worked much
better than last year's rig, but I sense that the experts have more up
their sleeves yet. Mike Tuggle used large Litz wire basket coils
on his latest contest rig, and scored a bunch of west coast stations from
Hawaii on a 50 foot antenna - that's over 2500 miles! My best distance
was just over a 1000. I know his location, over water, helped a lot,
but still...
LOOP ANTENNAS: Just about given up on this concept in my location - not a peep. Put this one in the the same category with "crystal set in a headset" and "pocket crystal radio". Where I live, you need to take this antenna business somewhat seriously. If you want to convince me otherwise, you are welcome to bring your pet set for a visit and a demo. Personally, I have a friend with a 700 foot dock over the marsh that might accommodate a beverage antenna...I finally got a regenerative receiver working, and may try this with a loop antenna - it works pretty well with just 6 feet or so of antenna as it is, but works better with regular antenna/tuner/traps etc.
MISCELLANEOUS:
Scott Balderston put me onto
substituting an audio frequency choke for the standard 47k resistor across
the terminals of a crystal earplug. Using the primary (high impedance)
side of a matching transformer I use with my low impedance (60 ohms dc
resistance on the phones), I got a marked improvement in signal level.
Also tried a power supply transformer - no luck, a Radio shack 1000:8 ohm
audio transformer - worked, but lost some of my bass, a 10 mH radio frequency
choke - nada, and an audio choke that came with a Radio shack am/fm kit
- really lost my bass, but got louder. If you like the earplugs,
and you should because they are really tough to beat for the price, sensitivity-wise,
you should look into this audio choke business. If you are just a
casual listener, the 47k resistor works fine, and is a very cost effective
way to eliminate earplug distortion (10 cents). I got my choke from
Scott, and it's an oldie. I think he has found a supply of newer
ones, and might be willing to help if you aren't having luck finding one.
He's on my links page under Scott's Crystal Radios.
In the same line, I tried a
100k pot in place of the 47 k resistor. Results were inconclusive.
Going to try this again with a meter on the set to see if I can find a
spot which works best. Incidentally, putting a second earplug in
parallel with the first gives you binaural capability with little if any
loss of sensitivity - don't need to use a second resistor either.
Tried emulating the effect of
a double-tuned rig using two sets, capacitively coupled. Too many
knobs to turn. Guess I'll have to bite the bullet and use my
"getting harder to find" smooth operating double 365 air variable.
Heck, I just wanted to see if the double tuned rig would make a significant
difference up where my local bandmasters dominate the band starting from
1270 kHz all the way to the top. The rig I am describing is similar
to the Miller 565/575, with both tuned circuits acting as a passband tuner.
I have had some success with both triple and double tuning to get above
the 1490 kHz barrier, but it takes skill and patience to do so. Think
I will try to assemble a set which only tunes the top 400 Khz of the band
and see if I can spread it out a bit. also need to get some higher
Q coils while I'm at it. Anybody want to donate some Litz wire to
the "cause"?