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After some cautious first steps my first laser cut parts have been made. The case for the clubs upcoming WSPR kit build prototype has been, well, lasered.

There’s a couple of minor points to address but for a first effort I’m pretty pleased.

The idea was to cut for a single sheet a ‘desktop’ case for the U3 WSPR transmitter that could display a callsign or something similar on the front as a customisation as well as being simple and space efficient. Yep, you can buy a case but its quite nice to be able to make one in Cumbria rather than China. I should be able to get 4 and a half of them out of a single 300mmx600mm sheet.

All I have to do now is fix the faults and make it right next time.

If you operate your Elecraft KX3 in a portable environment (and perhaps even if you don’t) there are a few must-have add-ons which really help protect your KX3.  You are probably already aware of the popular KX3 KX Endplates and KX Cover available from Scott, AK6Q and his Gems Products website.  I received both as a Christmas present from my darling wife and love what they do for my KX3.

In addition to operating SSB phone via my KX3 on SOTA activations, I also enjoy grabbing my Buddipole a battery and heading outdoors for some picnic table portable operations in a park or really just about anywhere.  In this setting I typically bring along my laptop and operate PSK-31 or JT-65.  However, one thing I’ve noticed (and have been concerned about) is how the KX3 has the potential to heat up when running these digital modes (even at 5w or less).  This is especially evident in the warmer months of the year.

A few weeks ago I was browsing the KX3 Facebook page and learned about an add-on heat sink designed, built and sold by a fellow ham in Canada.  This OM’s name is Fred Meier, VE7fmn.  I contacted Fred via email and he quickly provided a detailed response on how he designed his KX3 heat sink and provided cost and availability information.  While I did find one other heat sink being marketed for the KX3, I believe Fred’s version is more effective at dissipating the heat from the KX3 and it looks great while doing it.

Here’s what Fred’s KX3 heat sink looks like installed on my KX3.

Fred’s KX3 heat sink is well built and designed to be durable.  The fins on the heat sink are not going to bend or break off and only adds an additional 8 ounces of weight to the KX3. 

I’ve conducted a few tests while in the shack and had the KX3 running PSK-31 and JT-65 at 10w and never received the overheat warning.  I couldn’t run above 5 watts inside or outside the shack without the heat sink installed.  I’ve yet to test the KX3 with heat sink installed outside in a portable setting, but I’m confident I will not have any issues.  If you would care to read another review of VE7fmn’s heat sink, please go here.

As I’ve stated, I love operating portable with my KX3 and I’m Happy, Happy, Happy to have this wonderful add-on to help keep my KX3 Cool, Cool, Cool.

Until next time…

73,

Jerry

Over the years, I’ve fancifully imagined that I would build a set of keyer paddles. I even went so far as designing a couple concepts and collecting materials…but, inevitably I moved on from the institution with the machine shop and sucker machinist who was showing me the ropes. About a week ago, Mike, W3MC, posted a bunch of goodies for sale, including a Schurr Einbau key mechanism. Since I love my Profi 2, I snapped it up, recalling also that I had a nice hunk of brass for a base. Today, I cut and milled a little base for it. Lots of finishing and some acrylic work remain, but for now, there’s something special about a freshly-milled hunk of metal.

Although I’ve been aware of some Es happening on 50MHz for the last few days, inevitably, the openings have been when I have been busy or engaging in good works (cleaning the village church, springs to mind!).

This evening after supper, I popped up to the shack to see what satellite passes might be of interest and I decided to check 50MHz. To my delight there was an S9 CW signal around 50.097. A quick listen and a call and IS0GQX was in the log for the first Es QSO of the season.

I heard him work a few others around this area, but no other stations from the Med were heard, and within 5 minutes, the band was quiet again. Love those early season Es openings!

Another month is in the books and the QSO a day goal for 2014 continues.  April was successful in many different ways.  First, it moves me one month closer to ending the year with a QSO each and every day.  I also added two new DX entities to my DX list (Crete and Saint Kitts & Nevis) and I managed to get one state closer to WAS on a few different categories.  Finally, I beat my monthly total QSO record of 393 (set in November 2013) with a grand total of 599 total QSO’s. 

The surge in QSO’s for April is primarily due to my wanting to be better prepared in working contest pileup situations when it’s my turn to operate W1AW/Ø later in May.  I’ve been getting on the air and operating the ARRL Centennial QSO Party as much as possible and as much as band conditions have allowed.  It’s been fun.  I’d love to work you and give you my 5 points as a VE.

I’ve also been successful at chasing (and catching) all the W1AW portable stations.  I will need to make sure I catch a few states on their second time around later in the year.  But my goal is to work them all. 

The QSO breakdown for April is as follows:

Mode  Number QSO’s

JT65 149

JT9 3

SSB 441

PSK31 5

RTTY 1

2m FM 0

Additional notes of interest:

DX Stations Worked in March – 46

New DX Entities in March – 2

Total QSO’s for March – 599

Total QSO’s for 2014 – 818

Total consecutive QSO days – 120

Days left in 2014 – 245

Until next time…

73 de KDØBIK

While this may not be a surprise to those with electrical engineering backgrounds, this is a first for me — never seen this sort of thing before. While the effect is very cool, it’s potentially very dangerous and you shouldn’t go jumping the fence at the neighborhood 50kW shortwave station to try it out.

Wikipedia on plasma speakers:

Plasma speakers are a form of loudspeaker which varies air pressure via a high-energy electrical plasma instead of a solid diaphragm. Connected to the output of an audio amplifier, plasma speakers vary the size of a plasma glow discharge, corona discharge or electric arc which then acts as a massless radiating element, creating the compression waves in air that listeners perceive as sound. The technique is an evolution of William Duddell‘s “singing arc” of 1900, and an innovation related to ion thruster spacecraft propulsion.

The effect takes advantage of two unique principles. Firstly, ionization of gases causes their electrical resistance to drop significantly, making them extremely efficient conductors, which allows them to vibrate sympathetically with magnetic fields. Secondly, the involved plasma, itself a field of ions, has a relatively negligible mass. Thus as current frequency varies, more-resistant air remains mechanically coupled with and is driven by vibration of the more conductive and essentially massless plasma, radiating a potentially ideal reproduction of the sound source.

After doing some looking around, I realize that I’ve seen a similar phenomenon in the past while visiting the Boston Museum of Science — the singing Tesla coil!  Here is a fun example:

(via Reddit)