Saturday, September 21, 2019

Fixing A Noise Problem on an Astron RS-35M

Ground Noise on Astron Power Supplies

Not too long after acquiring an Elecraft KX3 and the PX3 panadapter,  I experienced how useful having a real-time spectrum display was in tracking down noise problems.   It's interesting that several local noise problems revealed were ones that for the most part were not audible, particularly on an HF band with expected atmospheric noise levels masking a good bit -- but seeing is believing.

Astron RS-35M -- 1990's
One particular issue I ran into was low frequency (audio range 0-300 hertz) noise / spikes showing up on the PX3 when powering it from a 1990's vintage Astron RS-35M power supply -- one that has served me well for a long time for a number of purposes.
Running the Elecraft from either a battery, a Bioenno Power Pack, or a Pro Audio Engineering power supply eliminated the problem -- with everything else in the setup not changed.   It seemed either a ground loop of some sort or a failing component in the supply was likely the root cause.

Jim Brown, K9YC, published a white paper around an issue that sounded very similar to what I was seeing -- although he was initially validating that a transmit audio issue was being caused by a ground issue on the V- of some Astron supplies.  Repeater-Builder.com has also compiled much information on this subject as well and can be found here.

To net it out, particular Astron supplies manufactured at certain times have bonded the V-  (the negative/ black lead) output of the supply to the chassis, along with the "green wire" third pin on the standard AC plug.  In other words, the supply as manufactured this way is not a floating DC supply -- and anything on the AC safety ground will make its way to the V- feeding your rig and accessories, potentially causing noise current to flow through things you'd rather it not flow through.  Putting an ohmmeter from V- to the chassis will tell the story -- if there is something close to zero ohms, it is not floating.
RS-35M with Negative Bonded to Chassis


In my case, checking the resistance revealed .006 ohms between the chassis and the negative terminal, so I cracked open the case to see how this was achieved.   Simply, a black 16 gauge lead ran from the circuit board "ground" to a screw with star washers on the bottom of the chassis -- this was in parallel to another wire that went from the same solder pad to the V- terminal on the rear. (It is interesting that the V- terminal is actually insulated from the chassis, go figure)   I disconnected the chassis wire, heat shrink wrapped the now disconnected terminal (if for some reason I wanted to reconnect later), and put the cover back together.   Plugged it in, tested the voltage, powered up the KX3 / PX3 and -- No Noise.

Maybe this workhorse will be around the shack another 10 years!

Saturday, September 14, 2019

Liquidambar Styraciflua Needs An Antenna

There are a LOT of trees on my property.  And that is both a blessing and a curse for antenna work.  I tend to be an optimist, so focusing on the blessing part works better for me...

Given where we are in the sunspot cycle, I've been considering ways to bolster W4QA's DX performance on the lower bands.  Specifically, 80 meters has always been a weak point in my antennas situation for the usual reasons:  you need room, you need elevation.     If maximum efficiency is desired, there's just little substitute for size -- and that goes for both horizontal and vertical antennas (including the radial / GP system).

So in that context, this tree in my backyard -- about 125' from the house and maybe 90' high, is begging to be a useful support for 'something'; for now, that 'something' is going to be a full-sized, 1/4 wave, 80 meter wire vertical with elevated radials.  This tree (Liquidambar Styraciflua), what we call a "Sweet Gum" tree in the Carolinas,  aren't that useful for much other than firewood, and, well antenna supports. (The seed pods are a devil to deal with in your yard...but that's another topic.)

In general, the vertical element will be made out of 13 gauge stranded / insulated copper wire and the radials from 18 gauge stranded / insulated copper wire -- all from The Wire Man (no affiliation).   The feedpoint will incorporate a choke/unun and depending on the Z measurements, I may design some type of simple matching (possibly a shunt inductor at the base (?)) to raise the input impedance closer to 50 ohms. 

Look for more posts as this develops and I welcome comments....

73, Rush