tag:blogger.com,1999:blog-29255943368830654812024-03-24T13:37:27.850-06:00W0CPDXing, Contesting, CW and SOTA from Colorado, USAWalt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.comBlogger23125tag:blogger.com,1999:blog-2925594336883065481.post-30337454505496720602024-03-24T12:30:00.000-06:002024-03-24T13:29:46.862-06:00Lightning Bolt Antenna Catalog and Quad Assembly Manual<p></p><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjNjOWKONB_U-f-0ZKpFTMreMyXM6BhdPj2KOiWkmYq_R_r3AUtHKR2-zx-ZqxCZxXry6ObA_oBCEM-vaKuTBWd23NYSj69yxmI2FP6WBFrQw4R0UiJsuazPwuvin-zGlyFForaeyebwv4AEqhPDRCphyusKsAE1LwGksgP8v20AFeePp-Kqjv4VrKAN2g/s4032/wls_20180903_IMG_9067.JPG" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="4032" data-original-width="3024" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjNjOWKONB_U-f-0ZKpFTMreMyXM6BhdPj2KOiWkmYq_R_r3AUtHKR2-zx-ZqxCZxXry6ObA_oBCEM-vaKuTBWd23NYSj69yxmI2FP6WBFrQw4R0UiJsuazPwuvin-zGlyFForaeyebwv4AEqhPDRCphyusKsAE1LwGksgP8v20AFeePp-Kqjv4VrKAN2g/s320/wls_20180903_IMG_9067.JPG" width="240" /></a></div><div class="separator" style="clear: both; text-align: center;"><br /></div><p>The Lighting Bolt Quad was a very popular antenna until about 2005 when it went out of production. In my view, it was the very best value in an HF gain antenna. I have posted the assembly manual here for those who might have acquired a used one without a manual or those who might want to homebrew one with parts from <a href="https://mgs4u.com/">MaxGain.</a> </p><p>I built and installed the 5-band, 2-element version of the Lightning Bolt several decades ago for $260. I really love this antenna. It was very inexpensive and it's been a good performer. Since I have another telescoping tower with a Kt34XA tribander, I have been able to do many A/B comparisons, and the quad performs very comparably with each at 40 ft (the max height for the quad tower). </p><p>I have read some quad users state that one should feed each band separately. I chose not to do that after testing the quad with all bands tied together against the big tribander. The additional complexity didn't seem worth it since the quad was so close in performance to the larger antenna, I concluded that there wasn't much to gain with separate feed lines. However, I did add 30 meters to the quad with a slight extension described on my page at <a href="https://www.qrz.com/db/W0CP">QRZ.com. </a></p><p><br /></p><p><a href="https://drive.google.com/file/d/16w0GVmGOiXLtLH95bxWiz8YQwaxUPWDg/view?usp=drive_link" rel="nofollow">Lightning Bolt Quad Assembly Manual</a></p><p><a href="https://drive.google.com/file/d/1qXEidXHxHhWV1SnLzH0NXseMz8bLDWJ_/view?usp=drive_link" rel="nofollow">Lightning Bolt Antenna Product Catalog</a><br /></p><p><br /></p><p><br /></p><p><br /></p><p><br /></p><p><br /></p><p><br /></p><p><br /></p>Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com0tag:blogger.com,1999:blog-2925594336883065481.post-18226485627438186242023-12-27T15:12:00.000-07:002024-02-23T15:35:21.302-07:00Human Security for All - HS4A - IARU partners with UNTFHS and WAAS<p><span style="font-family: inherit;"> </span></p><p><span style="font-family: inherit;"></span></p><div class="separator" style="clear: both; text-align: center;"><span style="font-family: inherit;"><a href="https://blogger.googleusercontent.com/img/a/AVvXsEjhynhe_BnCwzNYuvQuO9j4pgYDZhm6XQBKABemPIDEyf1jQOFRSjf_gA8AgXj-bf5T6Nq0o7qAeZiWFe0gIEm65DuBREtDDLDOliMHxhnCouKJygKJAwfiiPv-8tA31Fg4qiVgbO2GIVHGAzW0sItXCVju7rMyPTUpgiZvZ7xagg15_taPkxHEKqBcfqs" style="margin-left: 1em; margin-right: 1em;"><img alt="" data-original-height="224" data-original-width="500" height="143" src="https://blogger.googleusercontent.com/img/a/AVvXsEjhynhe_BnCwzNYuvQuO9j4pgYDZhm6XQBKABemPIDEyf1jQOFRSjf_gA8AgXj-bf5T6Nq0o7qAeZiWFe0gIEm65DuBREtDDLDOliMHxhnCouKJygKJAwfiiPv-8tA31Fg4qiVgbO2GIVHGAzW0sItXCVju7rMyPTUpgiZvZ7xagg15_taPkxHEKqBcfqs" width="320" /></a></span></div><span style="font-family: inherit;"><br /><br /></span><p></p><p><span style="font-family: inherit;"><br /></span></p><p><span style="background-color: #444444; color: white; font-family: inherit;">Human Security for All is a global campaign of the United Nations Trust Fund for Human Security and the World Academy of Art and Science. This year, 2023, the campaign is partnering with the International Amateur Radio Union, IARU, to highlight the role that amateur radio can play in addressing Human Security needs. </span></p><p><span style="background-color: #444444; color: white; font-family: inherit;">Human Security is a measure of security from the perspective of the individual. It is modeled around seven dimensions of security that describe our common experience in life: economic, health, food, environment, personal, community, and political security. These reflect our everyday life experiences much more personally than the security paradigms that focus on national security, but tend to get less attention. The pandemic, military conflicts, financial instability, and food crisis have each transcended national borders and demonstrate a profound lack of security at the individual level that needs to be addressed. . Human Security for All is a campaign to bring attention to these unmet security needs and stimulate the search for real solutions built around the needs of individuals. </span></p><p><span style="background-color: #444444; color: white; font-family: inherit;">Radio means electromagnetic waves carrying information. The range of frequencies that produces these waves is called the electromagnetic spectrum. We know from the billions raised in spectrum auctions that frequency allocations are commercially valuable. Nonetheless, because they were there at the birth of radio and have played a critical role in its development, radio amateurs have been granted international parks of spectrum within which to develop, experiment, and utilize all manner of communications technology from digital to voice, from simple to complex, from local to global. These are called amateur radio bands, and they are spaced harmonically throughout the usable spectrum, each having its own unique propagation characteristics.</span></p><p><span style="background-color: #444444; color: white; font-family: inherit;">From the beginning, radio amateurs have utilized their skills to assist their communities and their nation with public service and emergency communication. Recent disasters such as the hurricane in Puerto Rico and the earthquake in Turkey demonstrate the value of amateur radio with commercial systems fail or become overload with traffic. Amateur radio is often called upon to assist in fire fighting efforts where communications infrastructure is inadequate or non-existent. Amateur often step into professional roles to assist agencies in responding to emergency situations. Radio amateurs provide public service communications for special events such as races to monitor and support the health of participants. In the United States, t<span style="font-size: 16px;">he </span><span style="font-size: 16px;">Amateur Radio Emergency Service</span><span style="font-size: 16px;"> (ARES) and the Radio Amateur Civil Emergency Service (RACES) are organized groups of licensed amateur radio volunteers who are trained to provide radio communications services to civil and government agencies in times of emergency. This model exists in many countries around the world. </span></span></p><p><span style="font-family: inherit;"><span style="background-color: #444444; color: white; font-size: 16px;">Today, radio is ubiquitous. To many, it has lost its magic. They forget it is the foundational technology of the cell phones we all carry. Our computer networking protocols, WiFi and Blutetooth are all radio systems. The internet service StarLink, is based on low earth orbit satellite radio pioneered by amateurs. Radio is still quite powerful and magical to amateur radio operators, but ordinary citizens take it for granted. If your station worked K4A in April 2023, go to clublog.org and request a commemorative QSL card. </span></span></p><p><span style="font-family: inherit;"><span style="background-color: #444444; color: white; font-size: 16px;"><br /></span></span></p><p><a href="https://humansecurity.world/" target="_blank">https://humansecurity.world/</a><br /></p><p><br /></p><p><br /></p>Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com0tag:blogger.com,1999:blog-2925594336883065481.post-91721047492464048422022-05-11T15:01:00.000-06:002022-05-11T15:01:17.281-06:00Personal Recollections of Guglielmo Marconi<div style="text-align: left;"><div><span id="docs-internal-guid-d5601eb8-7fff-0bb2-6449-8a07fe3e8704"><span style="background-color: white; color: #222222; font-family: Arial; font-size: 18pt; font-variant-east-asian: normal; font-variant-numeric: normal; vertical-align: baseline; white-space: pre-wrap;"><span style="border: none; display: inline-block; height: 419px; overflow: hidden; width: 624px;"><img height="419" src="https://lh5.googleusercontent.com/HjKM_JGDdS-rZkOgtEpmWpx0dWPDNvVxLraXV68o2fGyJzCS_QKYJSTnbDjSRl20TLPvC4hkQ7RZ22QOQySuIqnfgUtWazva2cyi1-u3UaJ2eKCJfDNXnELSR0gHA9dQ2qoxcSq53cFKTnzL8A" style="margin-left: 0px; margin-top: 0px;" width="624" /></span></span></span></div><div><br /></div><div><br /></div><div>Walt Stinson, W0CP</div><div><br /></div><div><br /></div><div>Everybody wants to know about Guglielmo, now that he’s dead and all. They want to know about our childhood together. That’s why I’m talking to you. I am going to tell you, and you can spread it around, and that’s it. I am done with it after I talk to you. </div><div><br /></div><div>Now, don’t get the wrong idea. It’s not that I don’t like talking about Elmo, because I do. It’s just that with him being the most famous person in the whole world, it’s been too much pressure. Too many reporters hanging around asking questions and my wife is getting on my case and I don’t blame her. I mean it’s not like they’re paying me or anything, and even worse they don’t know anything about it. That’s why I’m talking to you. But yeah, I know the whole story of what happened, and since you’re into wireless and Morse Code, and all, I figure I can trust you to get it straight. </div><div><br /></div><div>People say he wasn’t smart because he never attended a proper school, but they’ve got it all wrong. Elmo was the brightest kid in the Village. His older brother, Alfonso, got his early schooling in England at Bedford. Elmo and his mom lived there off and on till he was six. He figured he’d get the same treatment as Alfonso and he was looking forward to it. But, no. He was stuck at the Villa Griffone and not even his mother could talk Don Marconi into letting him go back to England for school. You see, Elmo was bored out of his mind. Can you imagine being a teenager trapped at that Villa? I mean, it’s a really nice estate and all, but in his mind, it was a prison. His father didn’t even let him go to school in Pontecchio with the rest of us. Brought in tutors. Some kids would have rebelled, but Elmo didn’t. He respected his father too much for that. For the most part, he just accepted and made the most of it by trying to please his tutors.</div><div><br /></div><div>Elmo and I were the same age. We made friends at church when we were 13 and played together all the time. He was a good horseman and taught me to ride, too. We rode around the Villa Griffone and just hung out talking about girls and science. We were both into science stuff, and girls just as much. He didn’t actually have a girlfriend, though, so the only thing that got him by was that he really admired his science tutor, Vincenzo Rosa, and wanted to impress him. Rosa told Elmo about everything that was going on with electricity in Italy, Germany, and England and kept him up on all the latest inventions like the telephone and how it was spreading around Italy and got him all excited about it. You see, Elmo figured we should keep in closer touch about stuff and we didn’t have any way to do it. He had to come into town and visit me or I had to hoof it out to the Villa, and it was really a pain. We wanted the telephone but it wasn’t in Bologna, yet. So, we decided to build our own telephone line from magazine articles and drawings that Rosa showed Elmo about what Bell was doing in America. Anyhow, that never went anywhere because we found out how much it would cost and we didn’t have any money and Elmo couldn’t talk his dad into giving him the money for it. So, that plan was dropped. </div><div><br /></div><div>A few years later, Rosa took Elmo to meet a friend of his, Augusto Righi, at the University of Bologna. Righi and Elmo really hit it off. Righi told Elmo all about what Heinrich Hertz was up to. When we finally met up again, he had a new plan. We didn’t need any wires, he said. We would just use Hertzian waves to signal each other with Morse code. Righi sent Elmo some articles about Hertz’s experiments and we went to work on copying them. Elmo’s dad was down with it because it was going to be a lot cheaper than our first idea and because Rosa convinced him that it would be good for Elmo to experiment with this new breakthrough in physics. </div><div><br /></div><div>So, that’s how the whole wireless thing started. It didn’t matter to Elmo that scientists were convinced the waves would not travel very far. In his imagination, they could, and Rossa didn’t say anything to dissuade him from trying. </div><div><br /></div><div>When Elmo turned 16, that’s when he got a butler. His butler was named Roberto Mignani. At first, Elmo didn’t know what to do with Mignani and vice versa, but when we started the wireless project, it finally dawned on Elmo that Mignani should be our assistant. I was kinda Elmo’s assistant too, so I guess he had two assistants, me and Mignani. But, truth be told, I was actually Mignani’s assistant because he was really good. You really couldn’t expect much ingenuity from a butler but Mignani was no ordinary butler. He could make just about anything and if he couldn’t, he knew someone who could. So, when Elmo enlisted Mignani, that’s when things really got going. Hertz had detected a wave across the room and Elmo wanted to go further, so that’s what we did. We had all the details and copied the experiment and tried it out and it worked just like Righi said it would.</div><div><br /></div><div>Elmo was very excited to see just how far the waves could go. You see, he had this idea about using Hertzian waves for signaling and connecting people over long distances. Nobody else in Italy, Germany, or England cared a whit about communicating with wireless but it’s all Elmo focused on. We called it “the distance game”. We started at about 10 feet and went from there. Alfonso and Mignani were all in with our game. They thought it was fun, too. So, every week for a year we’d set up a new test to make a new distance record. Sometimes it wouldn’t work so Elmo would mess around with his equipment and try something new. We tried putting the antennas up higher and that helped a lot. We tried vertical wires, horizontal wires, longer wires, and shorter wires to see what effect they would have. Vertical and longer were better. Then we hit the wall again and Elmo tried connecting a ground rod to the receiving and transmitting apparatus and that helped a lot, too. </div><div><br /></div><div>Finally, after a lot of trial and error, we set up the receiving apparatus in the field about a half a mile away, and Elmo’s brother, Alfonso, was able to detect our signal. Rossa and Righi congratulated Elmo on reaching “the limit”. You see, the famous English scientist, Oliver Lodge, had told Righi that one-half mile was the maximum distance the waves could travel and that’s what Rossa believed, too. But Elmo and I were playing the distance game and decided to push on until we couldn’t detect a signal anymore. Elmo didn’t care about what the scientists said. In his imagination, he was connecting the world and his messages could travel everywhere. </div><div><br /></div><div>Eventually, he got it working over a mile. Way beyond what anyone thought he could do. That’s when he showed me how big he was thinking. He went to his dad with a bunch of ideas about how wireless could change the world. All he needed was more power, bigger antennas, and better equipment. In other words, a lot of money. His dad was impressed enough to introduce Elmo to some of Italy’s most important government and business figures, hoping to get him some backing. Elmo offered his inventions to the Italian navy, too. But, nobody in Italy was willing to back him. He got pretty discouraged. That’s when his mom suggested that maybe the Jameson’s could help him. </div><div><br /></div><div>Elmo’s mom, Donna Anne, being the granddaughter of the founder of Jameson whiskey, had lots of wealthy relatives in Ireland and England and figured one might be willing to sponsor Elmo. So, she took us to England where he presented his ideas to the family, the bankers, and even the British government. Of course, they all wanted a demonstration, which we gladly provided. By then we had the distance up to four miles. When they saw what we could do, some of them could see where things might lead and signed on to fund Elmo’s company, The Marconi Wireless Company. That was 1896. We were just 21 years old. </div><div><br /></div><div>Well, the rest of the story everybody knows. He kept on playing the distance game, breaking records every month. Elmo was always ahead of the scientists who had to play catch up and devise new theories to explain the impossible. When he broke the 12-mile barrier, the post office, the navy, and the bankers all got very excited as the possibilities finally became crystal clear. Then they said he couldn’t go further than 200 miles because of the curvature of the earth, but he proved them wrong again. Finally, in 1901, he made the first wireless contact between North America and Europe, spanning the Atlantic Ocean, making the front page of newspapers around the globe. Elmo’s fame was unparalleled which resulted in a lot of public adulation, including from the ladies, as he was still a bachelor at that time. </div><div><br /></div><div>Wireless would connect the world and usher in a new era of civilization, just as he had imagined, and the Marconi Company would be at the forefront. Elmo cleverly set it up as a service company. It didn’t sell equipment but instead leased it along with trained operators. Some of the first customers were the ocean liners because the passengers wanted to send telegrams but were totally out of touch for weeks at a time when at sea. When the Titanic disaster happened, without the Marconi operators aboard there would have been no survivors. The Marconi Company and its wireless operators were hailed as heroes and shipboard wireless was deemed a public necessity. More orders rolled in. </div><div><br /></div><div>Italy had long since recognized the importance of its native son and now it, indeed the world, poured on the honors. He was ennobled as Marchese by the King and elected a Senator. He was made a commander of the Navy. He was even awarded the Nobel prize in physics for boldly defying scientific convention and emerging a winner, which was a stunning accolade because he considered himself more of an entrepreneur than a physicist. I was not surprised at all by these accolades. Elmo relentlessly pursued his vision overcoming every obstacle. Radio communication was, by then, recognized as one of the most important technological advancements in the history of the world. </div><div><br /></div><div>Elmo was idolized the world over. Mothers and fathers of teenage boys encouraged their sons to learn the art and science of wireless. Given Elmo’s youthful appeal, it didn’t take much encouragement. Radio was an exciting game and its popularity exploded. Eventually, the boys made such a racket on the airwaves that some governments decided to crack down and create some order out of the chaos. There was even some talk in America about banning the unruly “hams” altogether, but Hiram Percy Maxim of the ARRL stood up against that. Elmo, being friends with Maxim, backed him but wanted the hams moved up in frequency and out of his precious long-wave bands. That’s what happened, and you know the rest of the story. The hams got lucky.</div><div><br /></div><div>My life since those magical early days has been pretty dull, actually. I could have stayed with the company but I got homesick and returned to Pontecchio, got married, and settled down. I haven’t lost any of my excitement for radio communication, though. I am a ham myself, now. I have my own apparatus here at home and making shortwave radio contacts is my favorite pastime. Elmo and I kept in touch with each other through the years, often by radio. In fact, he installed a wonderful laboratory on his yacht, Elettra, and was playing the distance game right up to the end, exploring the potential of microwaves.</div><div><br /></div><div>Now, let me pour you another drop of Jameson and I’ll tell you all about his glamorous girlfriends...</div><div><br /></div><div><br /></div></div>Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com0tag:blogger.com,1999:blog-2925594336883065481.post-40531924078001381982021-04-23T10:40:00.190-06:002023-03-17T15:41:29.103-06:00Optimizing the SunSDR2 for CW Operation<p>The <a href="https://eesdr.com/en/products-en/transceivers-en/sunsdr2dx-en" target="_blank">SunSDR2</a> from <a href="https://eesdr.com/en/">Expert Electronics</a> is a very powerful and flexible SDR transceiver package. The software that runs the show is stable and packed full of amazing features (like CW Skimmer integration built-in). While it performs well on CW, like most SDR radios it has a few issues with high speed CW >25 wpm.</p><p>The Sun utilizes semi-breakin CW with some nice customization settings. When using the built in keyer, the timing of CW character elements is excellent even at high speed, with no noticeable shortening of the leading element. However, it doesn't have QSK capability (the ability to hear between CW elements) because its T/R switching is not fast enough (QST measured 123ms). While I would not place this radio in the top tier of CW performance, it is overall a very competent radio. </p><p>However, there is one issue that I needed to address. <i>When the internal keyer is turned off and the radio is fed with an external keyer</i>, the first element in a Morse sequence is truncated a bit (noticeable only above about 25 wpm). Fortunately, this shortening can be corrected. </p><p>The ExpertSDR software has a very cool transmit signal analyzer that can display the timing of Morse elements. At 30 wpm or so, you can clearly see the truncated elements. Using the built in analyzer, I was able to easily compensate for the shortening by adjusting the break-in timing. </p><p>These are the settings I derived for the <a href="https://eesdr.com/en/products-en/transceivers-en/sunsdr2pro-en" target="_blank">SunSDR2 Pro</a> when using an external winkey:</p><p></p><ul style="text-align: left;"><li>On the ExpertSDR breakin tab, set the breakin time to 225ms or higher. (keep the rise time at 7 or higher to avoid key clicks!)</li><ul><li>Play around with these settings a bit and observe the effect on the tx analyzer</li></ul><li>Set the PTT delay to at least 10ms. (Longer will shorten dits and shorter is not advised). </li></ul><div>Below are before and after screen shots when using an external keyer. Note the shortening of some of the dits when using an external keyer. </div><p></p><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiudqn4oAYLuEHvkRf082oHmRh8kJfXwjiAm6vJuYlKroEQypn7Yi55CE5mSUhOKu-B_DItPIAAjlHUCXipiDKHiHs61qC34IypsGVvVROZbWU_Lly9Pbch18ry0T1CDqaLPOMqmyg74R4/s1904/Screenshot+%25285%2529.jpg" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="1079" data-original-width="1904" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiudqn4oAYLuEHvkRf082oHmRh8kJfXwjiAm6vJuYlKroEQypn7Yi55CE5mSUhOKu-B_DItPIAAjlHUCXipiDKHiHs61qC34IypsGVvVROZbWU_Lly9Pbch18ry0T1CDqaLPOMqmyg74R4/s320/Screenshot+%25285%2529.jpg" width="320" /></a></div><div class="separator" style="clear: both; text-align: center;">Click to Enlarge Image</div><br /><div>Below is a screen shot after compensating for the first element shortening. Note the uniformity of the dits. </div><div><br /></div><div> <a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjoCJ2oogSBecUSkZIqw2lk9O4ptkmMRAKLEOSoF1d_7Ar3Q8iewRJIPR5s0jeuFHlPPxh6nmcuhQA1tvzgMG3gHTuxe2XvpfvdOMh0KPIkDRIYNirebudRgNRzHGsJeuuC2LlbL5p_SSY/s1867/Screenshot+%25284%2529.jpg" style="margin-left: 1em; margin-right: 1em; text-align: center;"><img border="0" data-original-height="1020" data-original-width="1867" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjoCJ2oogSBecUSkZIqw2lk9O4ptkmMRAKLEOSoF1d_7Ar3Q8iewRJIPR5s0jeuFHlPPxh6nmcuhQA1tvzgMG3gHTuxe2XvpfvdOMh0KPIkDRIYNirebudRgNRzHGsJeuuC2LlbL5p_SSY/s320/Screenshot+%25284%2529.jpg" width="320" /></a></div>Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com0tag:blogger.com,1999:blog-2925594336883065481.post-87986933163969548112021-04-17T09:50:00.006-06:002023-05-01T19:07:47.968-06:00A Simple 4 band EFHW for 40,20,15, and 10 metersI like the EFHW for portable use because it is quick to deploy - unlike a quarter wave vertical, it doesn't require radials and unlike a dipole it's fed at one end. I have been trying out variations of the EFHW (end fed half wave) antenna for several years.These have included a 3 band trapped version (see post), a two band linked version, a two band lumped inductance version, and a fixed station 80-10 commercial version from MyAntennas.com. The later antenna is interesting because obviously the antenna is only a half wave on one band (in this case 80m). However, the 130 foot antenna is multiple half -wave lengths on all the other HF bands; 2 (half-wave lengths) on 40, 3 on 30m, 4 on 20m, 5 on 17m, 6 on 15m, 7 on 12m, and 8 on 10m. Interestingly, aside from the radiation pattern, the antenna behaves just like an EFHW on these other bands. It is resonant on these higher frequency bands with essentially the same high feedpoint impedance as 80m presents, resulting in a low SWR across multiple bands when matched with the transformer. So, let's call it an EFHW and just make the W plural = waves.<br />
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After getting good results with the <a href="https://myantennas.com/wp/product/efhw-8010/" target="_blank">MyAntennas 80-10</a> model at V31DJ, I got the idea to make a lightweight QRP 40-10 version of that antenna for SOTA and POTA activations. This antenna was cut for 40m, which is multiple half-wave lengths on three other bands; 2 (half-waves) on 20m, 3 on 15m, and 4 on 10m. The WARC bands, 30m, 17m, and 12m, can still be used, but an antenna tuner is required since this antenna is not resonant on these bands - it behaves like an end fed random length wire and needs at least one radial. <br />
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In testing, the resonant frequency of my 40-10 was high on 15m and 10m, so I added a small coil (6 uH) at 78 inches from the transformer to bring the resonant frequencies on these bands down to line up more with the CW SOTA frequencies. You can approximate this coil by cutting a one inch lenght of 3/4 inch pvc and winding 6 turns on this coil form. I put red self-emulsifying tape over mine to protect it. See photo. <br />
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Below is a plot of the SWR. Note that the SWR at resonance is less than 1.4:1 SWR on all four bands, making it ideal for radios lacking a tuner like the IC-705 and QRP radios like the Mountain Toppers. <div><div class="separator" style="clear: both; text-align: center;"><br /></div><div class="separator" style="clear: both; text-align: center;"><br /></div><div class="separator" style="clear: both; text-align: center;"><div class="separator" style="clear: both; text-align: center;"><div class="separator" style="clear: both; text-align: center;"><div class="separator" style="clear: both; text-align: center;"><div class="separator" style="clear: both; text-align: center;"><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiXAIjcUIXNH03XpNlr4CxADIDFLtP6u1e0kyiktxYIHxtm7jSeNVceSGJX8jQPVXIxrZm1STuror-mxc9pa7G2wqDfdJ0YUpL0qMaBdDXWOcNpQORlYWesuwxl_N6pxo3vFJz9dzKAyec/" style="margin-left: 1em; margin-right: 1em;"><img alt="" data-original-height="240" data-original-width="400" height="192" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiXAIjcUIXNH03XpNlr4CxADIDFLtP6u1e0kyiktxYIHxtm7jSeNVceSGJX8jQPVXIxrZm1STuror-mxc9pa7G2wqDfdJ0YUpL0qMaBdDXWOcNpQORlYWesuwxl_N6pxo3vFJz9dzKAyec/" width="320" /></a></div><br /><br /></div><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEieG9zuWAg7_Mh-a1_ZCzxFFOgnj8Yy3Ty2IwsHyiPo4hHvhNHXFLYCG5R2sN3u61I_KXQSarNGFfcR3UBy9VT7E9pH4Cm-l2yVVRC_VbEbvM0L2oLHyefCpZCN0dPX3Ro5-awo1QEze1q5G1WRumvuAYS3tCYKrh6QhMKYFt2-nd_qy1Dy-62ltFq1/s4032/wls_20230501_0168.JPG" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="4032" data-original-width="3024" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEieG9zuWAg7_Mh-a1_ZCzxFFOgnj8Yy3Ty2IwsHyiPo4hHvhNHXFLYCG5R2sN3u61I_KXQSarNGFfcR3UBy9VT7E9pH4Cm-l2yVVRC_VbEbvM0L2oLHyefCpZCN0dPX3Ro5-awo1QEze1q5G1WRumvuAYS3tCYKrh6QhMKYFt2-nd_qy1Dy-62ltFq1/s320/wls_20230501_0168.JPG" width="240" /></a></div><br /></div></div></div></div></div>Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com4tag:blogger.com,1999:blog-2925594336883065481.post-37718881735480101412021-04-17T08:05:00.001-06:002021-04-17T08:43:56.967-06:00FOC Tools for DxLab<p>Two files for use with DxLab are provided. One is a script file to be copied onto a filter tab in DxKeeper. This script will filter the log to show only Q's greater than or equal to 15 minutes for submission to the NewsSheet Quarter QSO's list. The other is a member list formatted for SpotCollector. This list, when loaded into the SpotCollector SpecialCallsigns folder will tag FOC spots with the member name and number if the spot source foc.dj1yfk.de:7373 is active in SpotCollector SpotSources configuration. This list is provided as an example. It will not be updated so it is up to the user to keep it current by editing the list. <br /></p><p>Click the link below to download the folder containing the two files. The size is <10k and it has been scanned for viruses. </p><p><a href="https://drive.google.com/drive/folders/1lGJsR9nqBLcRLHCqOhrJPGQEiIonCQ7O?usp=sharing">DxLab FOC tools</a><br /></p><p><br /></p>Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com0tag:blogger.com,1999:blog-2925594336883065481.post-3962408157777251852019-03-16T14:03:00.005-06:002020-10-21T13:37:12.509-06:00Adapting the Elecraft KX3 and KX2 for two keys - two keys / paddles or paddle plus computer keying<div>
The Elecraft KX3 and KX2 have two CW paddle inputs, individually configurable. This is great, especially for contest operations which typically require one input for the computer and one for a paddle. In this article, I'll describe how adapt the KX-3 for two separate CW inputs. </div>
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I recently operated in the 2019 ARRL DX CW contest from Belize with my KX-3 driving an SPE 1.3k amp. This was the first time I've used the KX-3 in a contest or DX trip and I was impressed with its performance and features. Before this trip I didn't even realize the radio has dual watch, something the K3 doesn't provide as a standard feature. I used it when I was running pileups and it worked very well. This radio is really more than meets the eye.<br />
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Another great feature of the KX3 is two individually configurable paddle inputs. There's just one problem, the front panel header, Key2, mates with a non-standard connector for Elecraft's accessory paddle. To solve this I purchased the matching 4 pin header off of Ebay. The finished adapter, shown below, consists of a molded 3.5mm stereo jack wired to the header according to the wiring instructions provided below. To protect the header connections I put heat shrink tubing over the header pins. I used a hot glue gun and filled the tubing with a bit of glue and slid it over the pins. The hot glue shrunk the tubing somewhat and then I used a heat gun to fully shrink it. The finished adapter is shown below. The two key inputs can be configured for hand-key, or paddle. I configured Key1 for the computer (hand key) and Key2 for the paddle. The dot and dit pins are menu configurable, don't worry about getting them reversed. The wiring instructions (when viewing the radio pins) are as follows: Upper right=ground; Upper left=none; Lower right=dah; Lower left= dit.</div>
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The finished adapter cable</div>
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This is the description of the connector taken from the ebay listing:</h3>
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<span face=""helvetica neue" , "helvetica" , "verdana" , sans-serif" style="background-color: #f8f8f8; color: #333333; font-size: 18px; font-weight: 700;">2.54mm Pitch 2X2 4 Pin Female Double Row Straight Header PCB Connector 284</span><br />
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<span face=""helvetica neue" , "helvetica" , "verdana" , sans-serif" style="background-color: #f8f8f8; color: #333333; font-size: 18px; font-weight: 700;"><i>PS - I had to purchase 50 of these. So, as of this posting, I have plenty of surplus. If you are reading this, I still have some. If you want one, FREE, just send me a SASE. </i></span></div>
Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com4tag:blogger.com,1999:blog-2925594336883065481.post-18695738108149699202019-01-01T11:00:00.003-07:002023-03-18T11:28:12.150-06:00The SOTA Cluster - Integrating SOTA RBN activator spots with Logging SoftwareThis post is for SOTA activators and chasers interested in integrating SOTA spotting with a traditional logging program. SotaWatch feeds the SOTA cluster system with manually posted spots as well as those picked up by the RBN (reverse beacon network) that match alerts previously posted on SotaWatch. This article describes how to tap into this system and feed these spots directly to a logging program. There are several advantages to this approach such as the ability to click on a spot to QSY the radio, have SOTA spots filtered or listed alongside DX spots, and keeping SOTA chaser QSO's in the main log (not running a separate chaser log). My logging program is DxLab, which I highly recommend. However, this technique can be applied to any logging program with a spot management feature allowing the use of multiple spotting sources.<br />
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To enable the cluster in DxLab launch the SpotCollector app and click on "Config", then click on "Spot Sources". In the host address box enter the following address: <i><b>cluster.sota.org.uk; the port address is 7300; the caption is SOTA; the username is your callsign; and there is no password required. (</b></i>Thanks to Andy, MM0FMF, for providing this capability. )<br />
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If this is the only cluster enabled, only SOTA spots will display. In most cases other sources will also be enabled for DX sources as well. In that case, it is helpful to use some tricks to indicate the source and to filter the spots. The SpotCollector app has a column showing the Network from which a spot was obtained. Drag this column so that is will display on the page without scrolling. In my case, I put it next to the Freq column. To filter the display so that it shows only SOTA spots it will be necessary to set up a simple SQL filter. This is done by right clicking on a filter box. Enter SOTA in the caption column and enter the following SQL expression: <i style="font-weight: bold;">(network="sota")</i>. Now when you click on this box in the SpotCollector display, only SOTA spots will appear.<br />
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SpotCollector is a stand-alone app. This means that it can be used alongside a different logging program to watch for SOTA spots. However, it also integrates well with the other DxLab applications. There is no reason why the cluster cannot be used with other logging/spotting programs as well, with perhaps fewer filtering options, as long as those programs allow for manual configuration of spotting sources. In that case, simply enter the telnet address and port shown above.<br />
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<br />Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com5tag:blogger.com,1999:blog-2925594336883065481.post-58797640539317324172018-12-14T18:36:00.010-07:002023-05-01T19:31:51.890-06:00Serial Port Splitters in Amateur Radio Applications<div class="separator" style="clear: both; text-align: left;">
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Serial port splitters are software utility programs that can turn one physical serial port into multiple virtual serial ports. When serial port splitters are being discussed, the first question asked is usually "why would I want to do that?". To answer that, you need to know that serial ports can generally only be used by one program at a time. Let's suppose that you use DxLab software for logging and rig control. All you had to do is just connect a computer to the radio to read the frequency, log it, and QSY the radio when you click on a spot from the Dx cluster. </div>
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OK, simple enough. But suppose you want to run another program at the same time and you want that program to also communicate with the radio. For example, you might want to enter a Dx contest and use a dedicated contest logger like N1MM and at the same time run DxLab SpotCollector in order to watch for new band countries. and QSY the radio to the spotted frequency. Or, you might want to run WSJT-X and a logging program at the same time. Well, now you have a problem. You shouldn't set two programs to use the same serial port, nor can you use a Y cable. If you do, both programs will try to communicate with the radio on that port and neither will work. What you need is a way to "split" the radio's serial port into two distinct ports so it can communicate with more than one program. You might even need a third serial port for an amp or antenna switch. Once you start automating the urge to expand is natural. Fortunately, it's very convenient to create a virtual serial port for each program you run that needs access to the serial port connected to the radio. Once a separate virtual port is assigned to each application you don't have to worry about which programs happen to be open before you open another. They could all be open and it wouldn't matter. </div>
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That is basically a description of my setup. I have used the <a href="https://www.eltima.com/products/serialsplitter/">Eltima Serial Port Splitter</a> successfully for several years to split a physical serial port (Com3 in my case) into three virtual serial ports (Com8,9,10). Each of my dedicated programs is set to run on one of those virtual ports and all three programs can run simultaneously. You simply identify the physical port you want to split and create the virtual ports that your programs will use. Your computer and software applications treat these virtual ports as if they were physical ports. They even show up in Windows Device Manager. </div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;"><b style="font-style: italic;">20210416...Update!! </b>I recently purchased an SDR radio. These radios generally do not have physical serial ports. Instead, they use a virtual serial port (on the ethernet connection) to communicate with software programs. That presents a problem for most serial port splitting utilities which can only split physical ports. That's the situation I ran into with Eltima. When I tried to split the radio's virtual com port the SDR's control program could no longer communicate with my logging program.<b> Fortunately, I found a utility that can split not only physical ports but virtual ports, as well...</b><a href="http://www.eterlogic.com/Products.html" style="font-weight: bold;" target="_blank">Eterlogic VSPE (virtual serial port emulator)</a><b>. </b>While this program requires a bit more geeking ability than some other solutions like Eltima, it is very flexible and powerful as well as very affordable at only $25 (try before you buy). Eterlogic is now my recommended solution and is an essential utility for SDR owners who want to split a virtual port. Eterlogic's VSPE allows up to 8 programs to utilize one virtual serial port. If you decide to try VSPE, here are a few tips to make things go smoother:</div><div class="separator" style="clear: both; text-align: left;"><ul style="text-align: left;"><li><div class="separator" style="clear: both;">Click on the white space to create a split com port</div></li><li>Note that the port you want to split should be selected on the right side of the panel</li><li>The single virtual port you create on the left side can be used on up to 8 applications</li><li>Since you will want to run VSPE every time the computer boots up, you should make it a "Windows Service". Click the "helper" tab and follow the instructions. Be sure to run the Windows CMD screen as an administrator. </li><li>You can download a trial version of VSPE and try it out before you buy. It is fully functional with this caveat: Windows Service cannot be set up. The program must be run manually. </li></ul></div><div class="separator" style="clear: both; text-align: left;"><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgICtfHiDxPsQHTsnaG8vq2-1xrc7ZfbSD2ZyPlKy5TWSKNADIOcbz2BX-_T8wTlHcfH2p2ah3DSvt5DAqFDlBNJqA2OkHEVZtUjlXBEvNWNPw5OR2Qdjt18RSF86o0pW4fw2yJNYGx2kI/" style="margin-left: 1em; margin-right: 1em;"><img alt="" data-original-height="327" data-original-width="474" height="221" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgICtfHiDxPsQHTsnaG8vq2-1xrc7ZfbSD2ZyPlKy5TWSKNADIOcbz2BX-_T8wTlHcfH2p2ah3DSvt5DAqFDlBNJqA2OkHEVZtUjlXBEvNWNPw5OR2Qdjt18RSF86o0pW4fw2yJNYGx2kI/" width="320" /></a></div><br /></div>
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I wanted to use my tower as a vertical on 160 meters. The tower is an LM-470D motorized 70 foot crank-up supporting a ten foot mast and the following antennas: KT34XA, 40-2CD, 3el 6m, and 80 meter quarter wave sloper This system is designed to allow the tower to be raised and lowered each day. The 3 foot metal stand-off arm is attached at the third level, approximately 50 feet fully extended, and the pipe is 15 ft long. The only purpose of the pipe is to stabilize the gamma wire so that it doesn't get tangled in the tower when it is raised or retracted. There are other ways to accomplish it, but this system is simple and has proven reliable over a 20 year period. If a fixed height non-retracting tower is used, the pipe is unnecessary. I mounted the omega match inside on the barn wall to get it out of the weather. Prior to moving it to the barn, I had it at the base of the tower, first in a tupperware style container and then in a heavy duty irrigation box. In both cases, I had to regularly deal with animals, insects, and moisture. It worked, but it was high maintenance compared to this system, which has been "no maintenance". There is about 100 sq feet of aluminum sheet tied to the base of the tower, which is earth grounded. Two 1/4 wave elevated radials are attached at the top of the first section, about 15 feet off the ground. These radials are not grounded and a tap wire runs from the radials to the top feed through insulator. This system has been in use in more or less this configuration for 20 years with about 120 DXCC countries confirmed through casual DXing on the Top Band. See photos of this setup at <a href="https://www.qrz.com/lookup/w0cp">QRZ.com</a>.<div><br /></div><div>20210427 Update: Exploding Choke forces Conversion to L Match</div><div>Little is known about the risks of shunt feeding a telescoping tower for 160 but we have some anecdotal data indicating that care is needed. In my case, all was fine until RF decided it had to find a better way to the 40 meter yagi boom and or elements at the top of the stack. This is just a guess, but perhaps the driven element of the yagi "wanted" to be integral part of the system? A problem then arises when large currents reach the choke, which is designed to block such current flow. You can see below what 1500 watts of shunt fed power on 160 meters did to the choke! Check out VE6WZ's you tube and blog posts and you'll find a similar story. </div><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjFYs9NjNK-AVUw-F0pPGhyhDbul73MCHw_3n5yfyesmFgETJlESvN07heDnpZvKlhY2PqqfsmR7jZvn0gzEKelvoMfJavBV7Gtb08joJmhuYDsvQAEE9bdli5xbul8ChxCJ2APKgN5KMw/s2048/wls_20201010_+0005.JPG" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="1536" data-original-width="2048" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjFYs9NjNK-AVUw-F0pPGhyhDbul73MCHw_3n5yfyesmFgETJlESvN07heDnpZvKlhY2PqqfsmR7jZvn0gzEKelvoMfJavBV7Gtb08joJmhuYDsvQAEE9bdli5xbul8ChxCJ2APKgN5KMw/s320/wls_20201010_+0005.JPG" width="320" /></a></div><div style="text-align: center;"><span style="font-size: x-small;">click to enlarge</span></div><div style="text-align: center;"><span style="font-size: x-small;"><br /></span></div><div>My options at this point were to install a relay to ground the driven element during 160 operation or to replace the choke with a proper high power balun and hope that it wouldn't arc. I decided to go for a new balun and chose the DxEngineering MC20 with the mounting hardware that's offered for it. Unfortunately, after installation the electrical length of the tower got shorter and I could no longer match it! We tried to find out why and even ran a wire all the way up connecting all the tower sections electrically, bypassed the balun, etc., but we were never able to determine the exact mechanism for the shortening after the new balun was installed. Now, my shunt fed tower was electrically short on 160! The Omega match will only match an antenna that is electrically long. (I have read posts on-line by hams wondering why they can't match a short tower on 160 with an omega match. If you're thinking of doing this, it won't work.) The solution was to convert to the classic L match. This resulted in a perfect match. Six months of subsequent rigorous high power testing during contests has not shown any failure or deterioration of the system.</div><div><br /></div><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjlTTstnxy7txw1CDk9XqX1aAKssPO3RLwM4LX2oV8DOWUGpLBMOkVo7OR8OJOWr4P0jjcbG0EnDRjjpyvDjVxR6yonHTCUwFXQ2F-lR8L2HY28OhHHGdC_MtCetJpn7uNedupbEBuMLcc/s2048/wls_20201020_+0080.HEIC" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="2048" data-original-width="1536" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjlTTstnxy7txw1CDk9XqX1aAKssPO3RLwM4LX2oV8DOWUGpLBMOkVo7OR8OJOWr4P0jjcbG0EnDRjjpyvDjVxR6yonHTCUwFXQ2F-lR8L2HY28OhHHGdC_MtCetJpn7uNedupbEBuMLcc/s320/wls_20201020_+0080.HEIC" /></a></div><div style="text-align: center;"><br /></div><div style="text-align: center;">The L match mounted on the wall of the barn. </div><div style="text-align: center;">The 2kw inductor is tapped at 7 uH and the capacitor is a 90-150 pF variable</div><div style="text-align: center;"><br /></div><div style="text-align: center;"><br /></div><div><br /></div><div><br /></div>Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com0tag:blogger.com,1999:blog-2925594336883065481.post-50896243621119509932018-03-15T10:32:00.001-06:002019-07-27T23:04:39.024-06:00Adapting a Two Pin Speaker Mic to the Elecraft KX2 and KX3 (Kenwood, Baofeng, Pofung, etc)<table align="center" cellpadding="0" cellspacing="0" class="tr-caption-container" style="margin-left: auto; margin-right: auto; text-align: center;"><tbody>
<tr><td style="text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhoUr2VGW9XrFkJAnCLTaKSiS7HfEAeFn0sxUPpF3Jw-zX6-Nb41tbFWZXLCwLQJ-10OUMaJrtiGZOcaPS-Za-LYgjn_5a4HasIBC8-yFGaVrPQWgYVtmJ5J1V7owhFezt5Xokz6rtOo54/s1600/IMG_8161.JPG" imageanchor="1" style="margin-left: auto; margin-right: auto;"><img border="0" data-original-height="1600" data-original-width="1200" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhoUr2VGW9XrFkJAnCLTaKSiS7HfEAeFn0sxUPpF3Jw-zX6-Nb41tbFWZXLCwLQJ-10OUMaJrtiGZOcaPS-Za-LYgjn_5a4HasIBC8-yFGaVrPQWgYVtmJ5J1V7owhFezt5Xokz6rtOo54/s320/IMG_8161.JPG" width="240" /></a></td></tr>
<tr><td class="tr-caption" style="text-align: center;">Finished Portable Ear bud-Mic</td></tr>
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Following up on the <a href="https://www.w0cp.com/2017/03/weightless-kx3-or-kx2-microphone-for.html">"no-weight microphone"</a> post (below) is an adaptation of two pin speaker mics often included with VHF HT's and readily available inexpensively on-line. These mics have the advantage of a PTT (push to talk) button. Shown above is an ear bud/mic that was included with a Pofung HT. I chose to modify this because the Elecraft headphone jack has low output and I didn't want to hold a speaker mic to my ear during reception. However, this adaptation will work for with a Kenwood style speaker mic, as well as with the ear bud mic shown above.<br />
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Parts required:<br />
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<ul>
<li>glue gun</li>
<li>one 3.5mm stereo to 3.5mm stereo 1 meter cable</li>
<li>perf board</li>
<li>ear/mic or speaker mic</li>
<li>heat shrink tubing</li>
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Instructions:</div>
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<li>Cut the stereo cable in half. Strip the ends and determine the color coding to the tip, ring, and sleeve of the plugs.</li>
<li>Cut the two pin connector from the ear bud mic. Leave 3 inches of cable with the plug. Strip the cable and determine the color coding for the tip, ring, and sleeve of each plug. These wires are tiny and cloth type, so put a dab of hot solder on the ends to make them conductive. </li>
<li>Solder the wires from the ear mic in a row on the perf board and then match up the appropriate wires from the stereo cables in the adjacent row and solder them. Bridge the lands between the stereo cables and the ear mic with solder. Note that the speaker ground (sleeve on the small plug) will have two connections and that not all wires will have a connection. </li>
<li>Test the assembly with you radio.</li>
<li>When it tests OK, use hot glue to affix the cables to the perf board, wihich provides strain relief. </li>
<li>Slide a piece of heat shrink tubing over the perf board and shrink it to provide protection. </li>
<li>Adjust the mic gain and compression on the radio to match the mic characteristics. </li>
<li>Note: because ground is provided by the speaker plug, both mic and spkr must be plugged into the KX for this to work. If you want to use the KX speaker instead of the earbud,you must put the unused earbud plug into the aux jack of the KX to provide ground in order for the circuit to function.<br /><table align="center" cellpadding="0" cellspacing="0" class="tr-caption-container" style="margin-left: auto; margin-right: auto; text-align: center;"><tbody>
<tr><td style="text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi_rSzOgRQmeG-iBllTy8hrN9zMdl-_96GJo6aXuGVVe9FiwEuWXLaKQkz715efkeNtrZ9l-XP0A85LWt-a2yEeme5rGvXh3dllvB8yeRS_5FhS7SXCT0kOGkM1Hq6NCSt6aubCKRwT3C0/s1600/IMG_8159.JPG" imageanchor="1" style="margin-left: auto; margin-right: auto;"><img border="0" data-original-height="1600" data-original-width="1200" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi_rSzOgRQmeG-iBllTy8hrN9zMdl-_96GJo6aXuGVVe9FiwEuWXLaKQkz715efkeNtrZ9l-XP0A85LWt-a2yEeme5rGvXh3dllvB8yeRS_5FhS7SXCT0kOGkM1Hq6NCSt6aubCKRwT3C0/s320/IMG_8159.JPG" width="240" /></a></td></tr>
<tr><td class="tr-caption" style="text-align: center;">Hot glue for strain relief</td></tr>
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<tr><td style="text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg3uwFOtSv2mxEcTBHfltm50CYYCgS0-5g-YJfodACoLnK7YlK5U7qZvlUF72tmLGEE0_l4AWVjxwRRTLysTr0KkofO2bhzx6uxJpHhu2FMDku-6gJKgxIQR66QE3WVa2uQT6ttWwHznP8/s1600/IMG_8160.JPG" imageanchor="1" style="margin-left: auto; margin-right: auto;"><img border="0" data-original-height="1200" data-original-width="1600" height="240" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg3uwFOtSv2mxEcTBHfltm50CYYCgS0-5g-YJfodACoLnK7YlK5U7qZvlUF72tmLGEE0_l4AWVjxwRRTLysTr0KkofO2bhzx6uxJpHhu2FMDku-6gJKgxIQR66QE3WVa2uQT6ttWwHznP8/s320/IMG_8160.JPG" width="320" /></a></td></tr>
<tr><td class="tr-caption" style="text-align: center;">Wiring diagram for two prong speaker mic to Elecraft</td></tr>
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Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com1tag:blogger.com,1999:blog-2925594336883065481.post-46723163475021624892017-09-30T12:07:00.005-06:002023-05-01T19:26:19.253-06:00Tips for Operating the FT8 Digital Mode<br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjFUpiab8JQuNwh0kTpHg9VUKMA-BLQLpTuD8xvp50UAwU7_gKa7_ay6Z7URS61FWNk3JUzOBIEZ6dMxO9Evxnlxm2N5hKT-_jzLwnOaeuTXCTudOMmUrG7dsd-dLHB7pbUYIP8Lk6ZaL0/s1600/ft8+screen.png" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="900" data-original-width="1440" height="250" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjFUpiab8JQuNwh0kTpHg9VUKMA-BLQLpTuD8xvp50UAwU7_gKa7_ay6Z7URS61FWNk3JUzOBIEZ6dMxO9Evxnlxm2N5hKT-_jzLwnOaeuTXCTudOMmUrG7dsd-dLHB7pbUYIP8Lk6ZaL0/s400/ft8+screen.png" width="400" /></a></div>
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The FT8 mode is taking ham radio by storm, and for good reason. Just as we were becoming despondent about entering the doldrums of the sunspot cycle, here comes a mode that can dig signals out of the noise and copy them Q5. The high bands, particularly 15, 12, 10, and 6 meters are suddenly capable of producing DX QSO's with regularity. It's miraculous.<br />
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I have been using the mode with great success to work new band countries for the DXCC Challenge award. In the process I have learned a few lessons. While the mode is actually pretty easy to master, there are a few things to pay attention to.<br />
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1. Maintain Accurate Timing. The shack computer cannot be more than a few seconds off official UTC, or this mode simply won't work. Its weak signal performance depends on perfectly timed transmission and reception sequences. My Windows 10 computer was set by default to automatically sync the time every week and that turned out not to be good enough. I have now got it syncing frequently, which solved my problem. To check your computer's accuracy bring up the clock in the lower right corner of the screen and watch it while listening to WWV. The long beep from WWV should occur exactly on the minute. Another way to check is to bring up the <a href="https://time.is/">https://time.is</a> web page, which will automatically display your time discrepancy. See below for instructions on how to force your windows computer to time sync. The solution I recommend is called <a href="https://www.meinbergglobal.com/english/sw/ntp.htm">meinberg ntp</a>.<br />
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2. Don't use a narrow filter. If you can control the filter bandwidth, open it up to 2.8 KHz or greater (except 60m, which is a special case). Also, if you are using SSB mode, make sure you don't have an equalizer turned on. My K3 has a digital mode that bypasses the equalizer and has its own mic input level setting. Check you manual to see if you have a similar setup to use instead of using the SSB mode.<br />
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3. Make sure your computer mic is off and gain is set correctly. I occasionally hear folks transmitting an FT8 and their mic is also on. That can be embarrassing! Watch your ALC and keep it below the threshold which is typically one bar (note that the Elecraft threshold is five bars) and by all means make sure you don't over drive the input and trash the frequency. Keep the power level down, too, to ensure a clean signal and a cool running final. Half of rated power, max, is a good rule of thumb. Remember, FT8 is a weak signal mode. There's no need to dominate the frequency with high power.<br />
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4. Read the excellent manual and watch some YouTube videos before you try to make contacts.Work a few stations before you try calling CQ. Here's a link to an excellent operating guide -- <a href="http://www.g4ifb.com/FT8_Hinson_tips_for_HF_DXers.pdf">FT8 Operating Tips</a><br />
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5 If you need a USB interface to connect the computer audio out/in to the transceiver audio in/out, consider a Tigertronics SignalLink, MFJ 1204 or the RigBlaster plug and play control interface. I have also had success just using a Griffin iMic USB sound card dongle with a line input (most sound card dongles just have a mic input which is easily overloaded by the line level audio output of the rig). Just plug the dongle into a usb port, change your computer sound settings to default to the dongle, plug rig audio out into the dongle line input and plug the dongle output into the rig input. Adjust the settings to prevent overloading these circuits, and go.<br />
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6. If you are a DXer like me, learn to operate split using the waterfall display. FT8 doesn't handle simplex pileups better than any other mode. Uncheck the TX=RX box. Double click on the DX station callsign you want to work, then shift click on an open frequency on the waterfall display. Practice this technique when answering ordinary CQ's.<br />
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7. For more tips and shortcuts, go to the FT8 main screen and press F3 or F5. Download WSJT-X here: <a href="https://physics.princeton.edu/pulsar/k1jt/wsjtx.html">Clicky</a><br />
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8. While FT8 is semi-automatic, you can send messages manually by un-checking the auto sequence box and clicking the TX numbered boxes. You can also double click TX1 to prevent it from automatically sending and put a contest exchange in TX5.<br />
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That's about it. This mode is easy and fun to use, especially for quick DX QSO's and weak signal work. It's fast, too. QSO's only take about a minute. It is bound to make its way into the SOTA world as soon as a lightweight external processor or phone app is developed.<br />
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Time Sync instructions</h3>
Meinberg NTP is the best solution I have found for time syncing in Windows. It is a free binary app without a windows interface that runs in the background as a "low overhead" service and calibrates my computer time as frequently as necessary to keep it exact. I have had it running for quite a while now and it has worked perfectly. Download here <a href="https://www.meinbergglobal.com/english/sw/ntp.htm">Meinberg NTP</a>. If you want to customize monitor, or control Meinberg NTP learn more here <a href="http://www.reeve.com/Documents/Articles%20Papers/Reeve_MeinbergMonGuide.pdf">MeinbergMonGuide.pdf</a><br />
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There are several other reasonably good options. Here are the instructions for setting up your windows computer for hourly time sync. The is also an app available called <a href="http://www.thinkman.com/dimension4/">Dimension 4</a> if you aren't comfortable following these instructions or prefer a windows interface.<br />
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<span style="font-size: x-small;">Make Windows synchronize time more often</span><span style="font-size: 14px;"> </span><a href="https://www.pretentiousname.com/timesync/index.html" style="font-size: 14px;">Time Sync Instructions</a></div>
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https://www.pretentiousname.com/timesync/index.html<span id="goog_1068312968"></span><a href="https://www.blogger.com/"></a><span id="goog_1068312969"></span></div>
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Make Windows synchronize time more often This page explains how to make the Windows network time (NTP) client synchronize its time more often than the default once per week. This was tested on Windows 7 but should work with Windows XP and above. Why is this important? I don't know about your machines but both my desktop and my HTPC have terrible clocks. They seem to drift by about five minutes each week and that messes up things like scheduled TV recordings or stating that it is 13:37 o'clock o...</div>
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<br />Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com3tag:blogger.com,1999:blog-2925594336883065481.post-79343361547609005132017-09-01T17:20:00.006-06:002023-02-16T18:41:06.738-07:0010 Essentials for Hiking in Colorado -- High Altitude Mountaineering Tips<div>
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<tr><td style="text-align: center;"><span style="margin-left: auto; margin-right: auto;"><a href="https://en.wikipedia.org/wiki/Alferd_Packer"><img border="0" data-original-height="226" data-original-width="216" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiyTOnKk13d6IwpEHTbhNevUyOC6Jzs6GNcYTt4VijSgzDemYd-dcRcT5In-hZ2eCbkbwq0XCDzoGiOkfhiQXlEQtD1X4O-Pi9vDOr5DGJC3il6gwY46w3YueV9iKp4pTqTKijhZia806s/s1600/Alferd_Packer.JPG" /></a></span></td></tr>
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<a href="https://en.wikipedia.org/wiki/Alferd_Packer">Alferd Packer</a></h3>
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I live part time in Buena Vista, Colorado, at 8,000 feet in the heart of the Rocky Mountains. Over the years, I have hosted quite a few visitors who want to experience the high country, or even try a 14er ascent and I have successfully guided quite a few group ascents. Since 2013, I have climbed over 300 summits as a participant in the SOTA program.What I have learned from this experience and from taking the High Altitude Mountaineering Course at the Colorado Mountain Club is that the Colorado high country is like being on "another planet", with its own set of rules. Common sense rules we've learned at sea level don't apply here and, in fact, can put you in danger. Skeptical? Check out Alferd Packer (click the link). You don't want to end up like the Donner party! Or, for a more recent update, checkout the September 17, 2017 headline of the Denver Post - <a href="https://www.denverpost.com/2017/09/15/colorado-fourteener-deaths-plan/">11 Deaths This Summer</a>.<br />
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I can remember my first 14er ascent in the summer of 1973 of Longs Peak, shortly after moving to Colorado from Illinois. I wore shorts, a tee shirt and carried a pint of water. For the 16 mile round trip, I started at about 7 am. When I finally made it back to the car at 8pm, I was dehydrated and suffering from hypothermia. Quite a powerful and memorable introduction to high altitude mountaineering! Fortunately, I was young and prepared to learn lessons the hard way. That's not the case now.<br />
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The purpose of this post is to provide some basic guidance and encouragement to activators who want to visit Colorado and enjoy the back country without the sort of mishaps that rookies often encounter. By applying these rules, starting modestly, and gaining some experience, there;s no reason why your hard earned SOTA skills can't be applied in this "alien" world. </div>
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1. <b>Extra Layers</b><br />
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<img border="0" data-original-height="440" data-original-width="358" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEj9HGCsa6fs893qyX-ACl_oKDE9EczPVr9H1oC-AHix9mbmSG4k7EIUId4pLkDEGvGReNwMByEpLZCt7iyTlYjce0xOPNiR_orcPSYLlw12ItJFNuX7iACZqFUUGnyaevyw7puVabjSvKM/s320/patagonia+shell.png" width="260" /></div>
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As you ascend, the temperature drops about 3 degrees for every 1k feet of elevation gain. If you start in Denver and drive 1 hour west to Bierstadt and hike up, you can expect the temperature to drop 40 degrees (or more). Tourists don't get it. It is amusing to visit Pikes Peak and see tourists in shorts and tee shirts shivering their butts off in 40 degree howling wind and flurries after driving up from Colorado Springs where it's a balmy, sunny 80 degrees. I hike in a poly tee shirt, a long sleeve shirt (or turtle neck, depending on the season), a puff vest, and a shell (with under arm vents). Wind can be fierce, especially above timber line, so a shell is essential to keep out wind and moisture. My pants are poly, and my hiking boots are gore tex. In the winter, I often add an extra layer. Avoid cotton, which retains moisture. Remember, there is no such thing as bad weather, only poor clothing choices.</div>
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2. <b>Start Early</b><br />
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<tr><td class="tr-caption" style="text-align: center;">Horseshoe Mountain, Mosquito Range, Colorado at Dawn, 13,905'</td></tr>
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The mountains create their own weather. In the summer, the pattern generally starts with a perfectly clear sky with clouds building up gradually as the day progresses. Thunderstorms with lightning typically occur in the early afternoon, after 1pm or so. It's a good idea to be back to timberline by 1pm. After my youthful Long's Peak debacle, my next summit of that peak included an overnight above timber line. When I woke up at 5am for my final ascent, I saw headlamps coming over the ridge. The experienced in and out hikers had started their trip at 3am and chosen a full moon to do it. I now consider dawn to be the latest time to start a 14er ascent. Earlier if the approach is a long one. Hit the trail at the break of dawn.</div>
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3. <b>Food and Water</b><br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgRLEsuSOvDX-bzlGK1bjOsp9pMjnG9r60lgXheUWm6lWEbH5bzgshNHC9oxCRmJbX05EcH47jCJ4xmeeqmjAoMnLOh_JLQzcesx_pDFArjO0WlB8fC_AmoS0mVzLPNNMf-9m4fIUJNa6Y/s1600/1206571748613616648johnny_automatic_NPS_map_pictographs_part_87.svg.hi.png" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="600" data-original-width="600" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgRLEsuSOvDX-bzlGK1bjOsp9pMjnG9r60lgXheUWm6lWEbH5bzgshNHC9oxCRmJbX05EcH47jCJ4xmeeqmjAoMnLOh_JLQzcesx_pDFArjO0WlB8fC_AmoS0mVzLPNNMf-9m4fIUJNa6Y/s320/1206571748613616648johnny_automatic_NPS_map_pictographs_part_87.svg.hi.png" width="320" /></a></div>
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Water is heavy and it is tempting to skimp on it, but that can be a big mistake. You want to stay hydrated to keep your body and mind functioning well, and you want some extra water, in case things go wrong. As a general rule I recommend a minimum of one liter for every four miles, but more is better if you can handle the weight. I recommend the Platypus bladder system. I also carry extra water in the truck and drink a liter before I hit the trail - and it's there if I run out on the way back. Throw some food in the pack. I carry a few extra energy bars and a sandwich. It's OK if you don't eat them. But, you may need them. It's not good to hit the wall for lack of food or water. Colorado has low humidity. This dryness which increases with elevation sucks water from the body. Avoiding dehydration at high altitudes requires regular hydration. Don't wait until you are thirsty - that's too late. Hydrate at regular intervals. The first thing to think about if you feel dizzy or have a headache is dehydration. </div>
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4. <b>Personal Locator Beacons, 2 Meter Radios, and APRS</b><br />
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<b><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiBwsImMY-774HPHsn4zjLay13Vb8BGA18y48zvfqX5rkakfrD42XCGqws4SxEr-nSt4RUMpPGxbJlh-rJUjplESDwDrX5i81iYU3zZMJmhIgUBCQ6lhK29Kvtj3ai1fLECuBt8XlT834E/s1600/1138acr-063585_-resqlink_72.png" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="450" data-original-width="450" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiBwsImMY-774HPHsn4zjLay13Vb8BGA18y48zvfqX5rkakfrD42XCGqws4SxEr-nSt4RUMpPGxbJlh-rJUjplESDwDrX5i81iYU3zZMJmhIgUBCQ6lhK29Kvtj3ai1fLECuBt8XlT834E/s320/1138acr-063585_-resqlink_72.png" width="320" /></a><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhVXFSa-JgIjGav8C4Xe0hgVF8QjsgY61H3hN_zfG_eF6N_FPcJNh5uW7sSu6dWWBRP1AmVCpj0zNXtJ_rpaWhGaweSP4awSEtbA63ogPlKj2y-U957OwQPY7wiMiw-Aa7t7M56dmp42F8/s1600/maxresdefault.jpg" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="900" data-original-width="1600" height="180" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhVXFSa-JgIjGav8C4Xe0hgVF8QjsgY61H3hN_zfG_eF6N_FPcJNh5uW7sSu6dWWBRP1AmVCpj0zNXtJ_rpaWhGaweSP4awSEtbA63ogPlKj2y-U957OwQPY7wiMiw-Aa7t7M56dmp42F8/s320/maxresdefault.jpg" width="320" /></a></b></div>
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Thinking about some worst case scenarios, I began carrying a PLB. I hike alone about 90% of the time. Much of that time I am bushwhacking in remote areas with no cell coverage and low likelihood of encountering another person. If I am injured and cannot walk out, I need a way to let people know where I am. This 4.3 ounce PLB takes care of that. I also carry a VHF/UHF hand held ham radio. Colorado has great <a href="https://en.wikipedia.org/wiki/Automatic_Packet_Reporting_System">APRS</a> and <a href="https://en.wikipedia.org/wiki/Amateur_radio_repeater">repeater coverage</a>, so I can spot myself using APRS, or use it to message my status back home. I can even let SOTA chasers follow me up the mountain just by turning of the location beaconing as I ascend. I often grab a few VHF contacts on 146.52 at the end of an activation. With these two lightweight devices, I can call for help if I need it, or communicate with family and friends when I am out of cell coverage. Be prepared to communicate in the event of an emergency and no cell coverage. If you are in the backcountry and don't have a ham license and carry a handheld 2 meter radio, you are missing out on a fantastic free public safety system. The same system that Amateur Radio Emergency Services use. </div>
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5. <b>Map and Compass</b><br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjMZnR-Clz1U_kBuGNPlN7USiTLCefRWWhiNyiqV36xJIuHA_5UxAeVV2lzfy26zTvsrGspNdaueJm-IuW-SR3tuS975nyXLAujRRrJx_1V1H4nzYRfSO_caw9_ADbumDmVChGnIEwUCD0/s1600/gaia+image.jpg" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="569" data-original-width="1600" height="113" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjMZnR-Clz1U_kBuGNPlN7USiTLCefRWWhiNyiqV36xJIuHA_5UxAeVV2lzfy26zTvsrGspNdaueJm-IuW-SR3tuS975nyXLAujRRrJx_1V1H4nzYRfSO_caw9_ADbumDmVChGnIEwUCD0/s320/gaia+image.jpg" width="320" /></a></div>
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When I started out, that literally meant a map and compass. Today, for me, it means my iPhone, Gaia app, and Google Maps app. Todays cell phones have built in GPS receivers and, with a little planning, they work fine in areas with no cell coverage. I simply download a coverage map to my phone from Gaia and Google Maps in advance of my trip. Learn to read topo lines and follow them and learn your hiking speeds (up and down) so you can estimate travel times accurately. Prior to a hike I derive a parking spot from Google Earth and lay down a waypoint in Gaia. I use the Gaia coordinates as a driving destination in GMaps. Most of the pre-trip planning I do is consumed by determining where to park and begin the trek. In Colorado, it's also important to descend the same way you came up. After an activation, in a rush to get down, it's easy to pick the wrong descent line and find yourself stuck in a ravine. Many Colorado search and rescue operations can be traced back to a hiker taking a "short cut" whether intentional or unintentional on the descent. Don't just "fall off" the mountain, follow the proper descent line. The easiest way to do this is to record the ascent and follow the same line of the descent. One other tip. I also wear a compass watch and take a bearing on the summit at the start of a hike. If all else fails, I can follow that bearing down. I also mark the car with a waypoint before ascending (I learned that lesson the hard way.) Don't lose your way.</div>
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6. <b>Flashlight and backup phone/gps battery</b><br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjTfSPm_WANftrleLL74OaByiyxBaBE3WNlUoyORB6yRIFS-B5mydl-ljmeYmJtu5I6PWrK6V9npxO2slHVnYz6xVQt8SiOIMLL99WvIKxHvph2mO4oohuM0ycxKjwFcGsu9NkkMo_2f2M/s1600/lipstickimages.jpg" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="194" data-original-width="259" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjTfSPm_WANftrleLL74OaByiyxBaBE3WNlUoyORB6yRIFS-B5mydl-ljmeYmJtu5I6PWrK6V9npxO2slHVnYz6xVQt8SiOIMLL99WvIKxHvph2mO4oohuM0ycxKjwFcGsu9NkkMo_2f2M/s1600/lipstickimages.jpg" /></a></div>
<span id="goog_533348529"></span>I know you don't "plan" to hike in the dark. But if you find yourself in the backcountry after dark without a flashlight, it's not fun - it's dangerous. I carry a "lipstick" backup battery for my iPhone, that also serves as a flashlight. If you are going to rely upon a smartphone for navigation, as I do, you <b>must</b> carry a backup battery. Don't get caught without power and light.</div>
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7. <b>Strike Ignitor</b><br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi-Adz7hlzga-3ArMzltLqieACCE7I-lzFYWrZSPg2WvKVWwOvfZnXGagypqoHLhPzMCAZbeBADo6abJYfd3uoXvCOEQ-VdMkknuZVssGSfym9hyphenhyphenxpCsTwfJ9yvc3UTU6qYBf9uh9XwWDA/s1600/MSR_Strike_Igniter.jpg" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="450" data-original-width="477" height="301" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi-Adz7hlzga-3ArMzltLqieACCE7I-lzFYWrZSPg2WvKVWwOvfZnXGagypqoHLhPzMCAZbeBADo6abJYfd3uoXvCOEQ-VdMkknuZVssGSfym9hyphenhyphenxpCsTwfJ9yvc3UTU6qYBf9uh9XwWDA/s320/MSR_Strike_Igniter.jpg" width="320" /></a></div>
Not only does the temperature drop with elevation, it also drops 30-40 degrees when the sun goes down. In the event of an unplanned over night stay in the wilderness, this will allow you to stay warm and survive until morning. Be prepared to start a fire.<br />
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8. <b>Sun Protection</b><br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjD8O6oPVjFltSGd8ok6PnpQMGCxtiOTBvA2iPxfO9T-C8mFmm0w5iZHxX-0pvoO8nvasdKxekDnECGA2Y8hcDzbNKw3MVllSkHGOGEF8tn2_fyIoO_FpG033U8YC8cnW4-S6hontzBB2s/s1600/Outback_small.jpg" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="152" data-original-width="201" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjD8O6oPVjFltSGd8ok6PnpQMGCxtiOTBvA2iPxfO9T-C8mFmm0w5iZHxX-0pvoO8nvasdKxekDnECGA2Y8hcDzbNKw3MVllSkHGOGEF8tn2_fyIoO_FpG033U8YC8cnW4-S6hontzBB2s/s1600/Outback_small.jpg" /></a></div>
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At higher altitudes, a thinner atmosphere filters less UV radiation. With every 1000 metres increase in altitude, UV levels increase by 10% to 12%. Unprotected skin at high altitudes burns fast. That's the primary reason why Colorado has the highest incidence of skin cancer in the country. Precancerous actinic keratosis is extremely common here. Many Coloradans visit a dermatologist each year for a check up and come home with arm, leg, face or scalp bandages from AK removal. You really have two choices, slather your skin with sun block or cover your skin with long pants, long sleeves shirt, and a wide brim hat to protect your scalp, neck, ears and nose (a ball cap won't cut it). I prefer the latter, with some clear <b>zinc oxide sunblock</b> on my nose and ears. Protect your skin.<br />
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<b>9. Medication</b><br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg1h4pcb6yVqS7XLd30kBAdF-uu4rGhrfsfFpmK4tF45sBMXvh7FSIyr3IBCigC_PjDlEQEa_gE2pAaBWkNkMvbamH6d-IIqGGKH9o-4obf0ZFPZ5vbLd2fnaBnA5Lw4E6uyTKxYGBUGuw/s1600/medication.jpg" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="198" data-original-width="181" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg1h4pcb6yVqS7XLd30kBAdF-uu4rGhrfsfFpmK4tF45sBMXvh7FSIyr3IBCigC_PjDlEQEa_gE2pAaBWkNkMvbamH6d-IIqGGKH9o-4obf0ZFPZ5vbLd2fnaBnA5Lw4E6uyTKxYGBUGuw/s1600/medication.jpg" /></a></div>
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The most common medical problems I have encountered on high altitude hikes are foot blisters, altitude sickness, and aches. Foot blisters are generally the result of poor footwear choices, bad fit, or inadequate break-in time. All of these can and should be identified and corrected prior to hitting the trail just by wearing the footwear for a week or so at home and taking some long walks. Carry some moleskin. Don't underestimate the misery you can inflict on yourself by failing to heed this advice!<br />
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The air is much thinner up here and it takes some getting used to. Fewer than ten percent of people visiting Denver get altitude sickness. That jumps to 35% when once you get up around 10,000 feet and increases with elevation. The most common symptoms are dizziness, nausea, headache, loss of appetite, and insomnia. I've observed it first hand on several occasions, and it's alarming. Altitude sickness can often, but not always, be avoided by spending more time acclimating in Denver before heading up to higher altitudes. There is a lot of randomness associated with this reaction. Just because you get sick once, doesn't mean you will the next time, and just because you've never been sick doesn't mean you won't be in the future. So, it's best to be prepared. Ibuprofen has been shown to be an effective treatment, and it also has the benefit of treating the aches and pains that often accompany strenuous hikes. Taking ibuprofen before hand is probably a good idea. For more severe symptoms or as a prophylactic, doctors often prescribe Diamox (or another similar drug). If you won't be spending a few days acclimating, it's good to have some Diamox handy, just in case. Just call your Doctor and let her know your plans and concerns and fill the prescription before your departure. Diamox is not an over the counter drug.<br />
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<b>10. Trail Etiquette</b><br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgVu67LXo7RXlxVhQ6fk86IF370l8fWVplBqNCrOjKuKjcEwqvA12OAXCJboe7HwGme4_dQUnEtuuIc2wtSD-t8dSXCgXanpziRFCKLUnlpn9tE8mStEQEKFK6u4un5To658GJWP5XiqwY/s1600/Multiuse-Yield-Sign.jpg" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="265" data-original-width="300" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgVu67LXo7RXlxVhQ6fk86IF370l8fWVplBqNCrOjKuKjcEwqvA12OAXCJboe7HwGme4_dQUnEtuuIc2wtSD-t8dSXCgXanpziRFCKLUnlpn9tE8mStEQEKFK6u4un5To658GJWP5XiqwY/s1600/Multiuse-Yield-Sign.jpg" /></a></div>
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Most regular Colorado hikers know and observe trail etiquette. You should, too. Here are some key aspects of good trail etiquette:<br />
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<li>Uphill hikers have the right of way. Stand aside for uphill hikers so that they can maintain their rhythm and momentum.</li>
<li>Leave no trace. Don't discard anything. Pick up trash if you see it. </li>
<li>If there is a maintained trail, don't hike off trail, especially above timberline. Erosion is a problem with all trails. Maintenance is expensive and time consuming, so respect the mountain by staying on trail. Above timberline, the alpine tundra is very fragile. I can't stress this too much.<span style="font-family: inherit;"> <b>Researchers estimate that Colorado alpine tundra already damaged by human activity will require hundreds of years to fully recover. </b></span></li>
<li>Make eye contact with passing hikers, be friendly, and say Hi. That's the Colorado way!</li>
<li>If you are setting up a SOTA station at the summit, position it so that it doesn't interfere with other hikers and be ready to demonstrate and explain what's happening. </li>
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Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com5tag:blogger.com,1999:blog-2925594336883065481.post-30453038370442536702017-07-02T13:07:00.002-06:002023-02-16T18:51:02.231-07:00A Low Cost Emergency Personal Locator Beacon (PLB)For the past two years, I have been hiking with a personal locator beacon in my pack. My ACR 2880 PLB is a 130 gram weight transmitting device that is registered with the Search and Rescue Satellite Aided Tracking System operated by NOAA. For details about this system and how it works, click here:<a href="http://www.sarsat.noaa.gov/sys-diag.html">http://www.sarsat.noaa.gov/sys-diag.html</a><br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjbG8LTitFl1eaBQq5zBNXuGQn9vZWVF6BCqDrgNsGtr29Nd8ClHxLDRtQzIkYiHMzxXtMQzmLSCNm8wAPrHiCaKo3LgbjDUJ9JXFIz7JmUemdJfUvgF67ZUxnAnVTfgP8Buy-J2dBR8Xo/s1600/ResQLink-PLB-Front-View.png" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="600" data-original-width="600" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjbG8LTitFl1eaBQq5zBNXuGQn9vZWVF6BCqDrgNsGtr29Nd8ClHxLDRtQzIkYiHMzxXtMQzmLSCNm8wAPrHiCaKo3LgbjDUJ9JXFIz7JmUemdJfUvgF67ZUxnAnVTfgP8Buy-J2dBR8Xo/s320/ResQLink-PLB-Front-View.png" width="320" /></a></div>
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This device differs from the Spot and DeLorme devices in several respects. First, there is no subscription cost. You just purchase the device, register it online with NOAA, and renew every two years online (I put a tickler on my calendar). The battery lasts 5 years. After that, the device has to be returned for refurbishing and recertification. The is a transmit only device designed for one time use. To activate, simply deploy the antenna and press the on button. When activated it sends out two beacons; a five watt distress beacon on 406MHz and a 500mw homing beacon on 121.5 MHz (for the S&R team). The distress beacon is picked up by LEO's as well as geostationary satellites and forwarded to local authorities with personal identification and location information. </div>
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I am primarily a solo hiker, about 90%. I am often bushwhacking in rough terrain. If I am seriously injured or come across an emergency situation, I know that as long as I have a clear view of the sky. I can quickly summon help, even if I am in a low spot with no cell or repeater coverage.</div>
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Fortunately, I have never had to activate the device except for occasional testing to ensure it is still functioning. However, it has provided a lot of peace of mind for me and my XYL, especially when I am activating in unfamiliar and remote areas. </div>
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This system provides world wide coverage and is supported by a number of countries other than US. Check for suitability in your particular country. </div>
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More information on the ACR 2880 can be found here:<a href="https://www.acrartex.com">ACR 2880</a></div>
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Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com1tag:blogger.com,1999:blog-2925594336883065481.post-2393422210748240382017-05-26T11:26:00.001-06:002018-05-20T08:21:56.662-06:00EFHW Tri-Band Trapped 17, 20, 30 meter Antenna<table align="center" cellpadding="0" cellspacing="0" class="tr-caption-container" style="margin-left: auto; margin-right: auto; text-align: center;"><tbody>
<tr><td style="text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiuPtLapgfGK4-PCc5bLDk6q701cMeUgfnpOrCnqA93MPFhEnjW_ykLJpknezE7f3ecIP2TOeu3LE55WTaCHepxo006taytibJ1r8VDwWzXQkprFhLmNehYDbVygQ713HXyAs3gnVG98zk/s1600/IMG_6807.JPG" imageanchor="1" style="margin-left: auto; margin-right: auto;"><img alt="" border="0" data-original-height="1200" data-original-width="1600" height="300" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiuPtLapgfGK4-PCc5bLDk6q701cMeUgfnpOrCnqA93MPFhEnjW_ykLJpknezE7f3ecIP2TOeu3LE55WTaCHepxo006taytibJ1r8VDwWzXQkprFhLmNehYDbVygQ713HXyAs3gnVG98zk/s400/IMG_6807.JPG" title="Tri-band end fed half wave antenna" width="400" /></a></td></tr>
<tr><td class="tr-caption" style="text-align: center;">Tri-Band SOTA EFHW </td></tr>
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I couldn't do any SOTA activations recently due to work commitments, so I spent some spare time building half a dozen unun's on different cores and comparing them to the Par and Packtenna efhw unun's both on the bench and in my backyard. I came up with a design that works well on my bands of interest, 30, 20, and 17 and doesn't require a capacitor. It uses a <a href="http://toroids.info/FT82-61.php">FT-82-61</a> core with a 16:2 winding for a 64:1 impedance transformation. My tests confirmed that a 9:1 unun is adequate to bring down the impedance into a range suitable for use with the Elecraft KX2 internal tuner. One advantage of using a 9:1 with the KX2 is the flexibility of using the antenna as a random wire on other bands where a 64:1 impedance transformation would produce a very low impedance/high current situation for the radio which could result in overheating or inability to find a match. However, I wanted something that I could also attach to a radio without a tuner, such as the <a href="http://www.lnrprecision.com/store/#!/MTR3B-Mountain-Topper/p/45010523">LNR MTR3</a>, which requires a low SWR. I use 10 feet of thin rg174 as a feed/counterpoise, so I didn't want high swr for that reason, as well. My 17 and 20 meter traps are made from the <a href="http://www.sotabeams.co.uk/pico-traps-kit-pair/">SOTAbeam </a>pico trap parts. Below are the plots of my final design. Plots are with the actual trapped tri-band EFHW. M1, near the top left corner of the chart gives the reading of the frequency under test and the resulting SWR. Green plot is SWR.The SWR's on a recent Dick's Peak activation matched these plots closely. The <a href="http://www.sark110.com/">SARK 110</a> was indispensable during this project.<br />
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<span style="font-family: "arial" , "helvetica" , sans-serif; font-weight: normal;"> Below: 30m, 20m, 17m field derived plots</span></h4>
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhk_yPII_hZLHa2PeSiV51NkROj2nVpo0lmjrM2rx9wJXVvCGrSjpPuQf0Tfpw2nizqpKkP1hk6PfUErpe9PVmTUpnGa29zYH_C1sLTqTz4v47dcj7MhNDsDeZqSkfBVNE1DRFjcdtbHs8/s1600/sbrk__07.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img alt="" border="0" data-original-height="240" data-original-width="400" height="240" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhk_yPII_hZLHa2PeSiV51NkROj2nVpo0lmjrM2rx9wJXVvCGrSjpPuQf0Tfpw2nizqpKkP1hk6PfUErpe9PVmTUpnGa29zYH_C1sLTqTz4v47dcj7MhNDsDeZqSkfBVNE1DRFjcdtbHs8/s400/sbrk__07.jpg" title="Sark 110 30m plot" width="400" /></a></div>
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg_I9jD514z4QBEITpqaZVpNX9v7YScGCuvUDjAhTShRl9Ph-NdKQGRf9LjTfKvuO8CMdUEz1Zcz5UUeRFG2HaiI3kkrEWVqbdLLb3VQY2WGcVyfYVEcK9K5qpmED16MQOW3XDWoXEbKM8/s1600/sbrk__08.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img alt="" border="0" data-original-height="240" data-original-width="400" height="240" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg_I9jD514z4QBEITpqaZVpNX9v7YScGCuvUDjAhTShRl9Ph-NdKQGRf9LjTfKvuO8CMdUEz1Zcz5UUeRFG2HaiI3kkrEWVqbdLLb3VQY2WGcVyfYVEcK9K5qpmED16MQOW3XDWoXEbKM8/s400/sbrk__08.jpg" title="sark 110 20m plot" width="400" /></a></div>
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgpQqGNglWAdGt6lH4YDuriIQFsnpABtrBQU3NmcWOGd9NIlTiy-zNfyxK2pU9kjz8Ixiys87IBL8NimN26BzD-KWyaqTBDvbs224nCHaNmaPEv6lKLbjV5DpOdjlhZwazo4ga8eKg8UQs/s1600/sbrk__09.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img alt="" border="0" data-original-height="240" data-original-width="400" height="240" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgpQqGNglWAdGt6lH4YDuriIQFsnpABtrBQU3NmcWOGd9NIlTiy-zNfyxK2pU9kjz8Ixiys87IBL8NimN26BzD-KWyaqTBDvbs224nCHaNmaPEv6lKLbjV5DpOdjlhZwazo4ga8eKg8UQs/s400/sbrk__09.jpg" title="Sark 110 17m plot" width="400" /></a></div>
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Below - Also tested, Clockwise from left: T60-2 (red), FT-114-43 split winding, , NXO-100, FT-114-43 traditional winding.<br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgl1bvwKmDv2IJ3Xivu3VV_PQJRinq-T4pwhV63xCcCux0-m8Eb_VhJgMU87PCYOo938We0NB9ON5q9DD7pbe4K-BM8QRAnGB8x9tm_w_kxUdOUTXGkmiPtDJN9V_McIxdUfZjoJCWKkvU/s1600/34686975892_7e35b807e4_o.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="1600" data-original-width="1200" height="400" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgl1bvwKmDv2IJ3Xivu3VV_PQJRinq-T4pwhV63xCcCux0-m8Eb_VhJgMU87PCYOo938We0NB9ON5q9DD7pbe4K-BM8QRAnGB8x9tm_w_kxUdOUTXGkmiPtDJN9V_McIxdUfZjoJCWKkvU/s400/34686975892_7e35b807e4_o.jpg" width="300" /></a></div>
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<span style="text-align: start;"><span style="font-family: "arial" , "helvetica" , sans-serif;"><b>Final Unun - FT-82-61 (16:2)</b></span></span></div>
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<tr><td style="text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEicjjujH-C9gNmL9iLMNS7PMNj23rA8_FH7QGi1ov1g1qhT-vgeso2hVVIz20FlDaWvwp7w3hcKC1f707TCuWS_YtAbxx0Aw8nigS4XKW1gj7XV7p7fx6BaahXdvXMjaxqHQ4hbv2Tt6MQ/s1600/34686975472_f02e20a912_o.jpg" imageanchor="1" style="margin-left: auto; margin-right: auto;"><img alt="end fed half wave transformer unun" border="0" data-original-height="1600" data-original-width="1200" height="400" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEicjjujH-C9gNmL9iLMNS7PMNj23rA8_FH7QGi1ov1g1qhT-vgeso2hVVIz20FlDaWvwp7w3hcKC1f707TCuWS_YtAbxx0Aw8nigS4XKW1gj7XV7p7fx6BaahXdvXMjaxqHQ4hbv2Tt6MQ/s400/34686975472_f02e20a912_o.jpg" title="64:1 EFHW unun transformer" width="300" /></a></td></tr>
<tr><td class="tr-caption" style="text-align: center;">SOTA EFHW UnUn 64:1 transformation</td></tr>
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<br />Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com1tag:blogger.com,1999:blog-2925594336883065481.post-55096660171714748062017-05-06T13:00:00.000-06:002017-05-06T13:08:30.213-06:00SPE Expert Amplifier LCD Display DimmerI love my SPE 1.3K-FA amplifier, but the LCD panel is too bright and can't be adjusted. I looked around on E-bay and found some 3M film which I cut to size and placed over the display. It looks much better. The cost was $2.49 for a 4x6 sheet. I traced the display window onto a piece of paper, placed the film on top and cut to size.<br />
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<span style="background-color: #f8f8f8; color: #333333; font-family: "helvetica neue" , "helvetica" , "verdana" , sans-serif; font-size: 18px; font-weight: bold;">3M Color Stable 35% VLT Automotive Car Truck Window Tint Film Roll Multi Sz CS35</span>Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com9tag:blogger.com,1999:blog-2925594336883065481.post-46809843718089441352017-04-13T18:14:00.001-06:002019-03-25T07:33:36.699-06:00Antenna Alchemy - End Fed Half Wave Antenna and The Way of the Goat<table align="center" cellpadding="0" cellspacing="0" class="tr-caption-container" style="margin-left: auto; margin-right: auto; text-align: center;"><tbody>
<tr><td style="text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEj96RPBqTpNPD9b3VxRT5-oqz1x-7xZwhtQiZh8DhL6RowYjDogOrbXkTz6SZk4Ler3SCFlrOzvspkfvBCLe3lRMWVQys3skBIQoCEcHHP8jkvJKkTwJb_VnVUhn0-UXG05HFgE5cLRoZM/s1600/efhw-dipole_w_traps_3.jpg" imageanchor="1" style="margin-left: auto; margin-right: auto;"><img border="0" data-original-height="477" data-original-width="636" height="480" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEj96RPBqTpNPD9b3VxRT5-oqz1x-7xZwhtQiZh8DhL6RowYjDogOrbXkTz6SZk4Ler3SCFlrOzvspkfvBCLe3lRMWVQys3skBIQoCEcHHP8jkvJKkTwJb_VnVUhn0-UXG05HFgE5cLRoZM/s640/efhw-dipole_w_traps_3.jpg" width="640" /></a></td></tr>
<tr><td class="tr-caption" style="text-align: center;">drawing de DL3TU</td></tr>
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Sota Mountain Goat is an award for accumulating 1000 activator points from mountain summits (see post). At least in Colorado, many of the winter activations are harrowing experiences in cold weather, deep snow, and high wind. Since it's not always practical to "hang around" at the summit the speed to set up and tear down can be critically important. No one wants to invest extreme energy and time climbing a mountain for an activation a descending with nothing to show for it. So, quick deployment and effectiveness are the watchwords for the kit.<br />
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When I first started SOTA activations, I looked around at what other, wiser, Goats were using in their kit and tried to copy them. I favored the lighter weight alternatives - no heavy radios, batteries or antennas for me. Aside from the transceiver, and mountaineering gear, the antenna stands out as the most important element of the system. I noticed that most of the Mountain Goats were using the End Fed Half Wave, or EFHW for short. While I had never previously used one, I thought I knew just about everything I needed to know about them. After all, isn't it just another flavor of vertical...? I was wrong. What I discovered shocked and intrigued me, as I think it will you, too.<br />
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At first, I was a bit confused about the difference between a random length end-fed, and the EFHW. The terms seem to be used interchangeably. Some of the articles I read had charts that showed lengths to avoid when cutting so-called "random length" wires. Turns out that if you randomly cut your random length wire to one of the "forbidden" lengths, it won't match, even with a tuner, and the SWR losses will be high. So, I initially avoided them. Only later did I learn that those forbidden lengths happen to be the half wavelengths or HW part of the EFHW, and these lengths are where some magic happens.<br />
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The Sota Goats don't want to dilly dally at the summit in dicey weather. They often need to set up, work their quota and get down. So, they don't have time for the one thing that we are all told we absolutely need in order to make a vertical work efficiently - radials. They need to extend a pole, string a wire, attach it to the radio and get on the air. The fastest way to do that, and put out a decent signal too, is with the EFHW - an antenna with a forbidden length.<br />
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The problem with the EFHW, the reason that it is "forbidden", is that it has an outrageously high feedpoint resistance at resonance - on the order of 3000 ohms. This is not a number that is friendly to any radio and it is outside of the range of typical matching devices. However, it is the high feedpoint resistance that is the secret of its success. Tame it and it will serve you well.<br />
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Why is the high impedance that we've been told to avoid actually an advantage? To answer that, let's examine the characteristics of a cousin of the EFHW that we are all familiar with, the quarter wave vertical. The radiation resistance of the quarter wave vertical is about 36 ohms. In a typical installation (4 or so radials) the ground resistance can be substantial - let's say 42 ohms for the sake of illustration. So the antenna presents a decent match to 50 ohm coax of 36 plus 42 ohms = 78 ohms, a good match to 50 ohm coax. The efficiency of this antenna is calculated by dividing the radiation resistance by the radiation resistance plus the ground loss... Rr/(Rr + Rg) = 59%. About 40% of the power is lost in the ground system. The situation gets much worse, however, if only one or two radials are used. The ground loss will rise to perhaps 80 ohms or greater and the efficiency will drop to 25% or so. In other words, the 5 watt QRP radio lugged to the top of the mountain will radiate around 1 watt with one radial attached to a quarter wave vertical.<br />
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In a fixed station installation, reducing ground loss is simply a matter of putting down a lot of radials. In the field, this is not so practical. Instead of putting down more radials, one solution is to raise the feedpoint impedance, the reducing the current flow at the base of the vertical and the corresponding ground loss. So, compared to a quater waver vertical with a poor ground systems, the situation improves somewhat with the so-called end fed random wire when it is longer than 1/4 wave. The typical impedance of this antenna is around 500 ohms. The radiation resistance isn't typically any higher than that of a quarter wave vertical but there is less current at the base of the antenna and you can get by with fewer radials. Avoid the "forbidden" lengths (43 feet is a popular length) and it works well with a 9:1 unun. A matching device (tuner) is generally required.<br />
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Now let's look at the EFHW. At resonance, the feedpoint resistance is approximately 3500 ohms. Consequently, there's even less current at the base of the antenna, obviating the need for radials. So, with just a short 3 foot counterpoise this antenna should be as efficient as a half wave dipole, making it ideal for quick deployment. Used with traps or jumpers a tuner is not required. SWR of less than 2:1 at resonance is typical with a 64:1 unun (16:2 winding ratio). Refer to the posting for instruction on how to build one.<br />
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But there has to be a catch, right? Otherwise, everyone would be using these cheap and simple antennas instead of quarter wave verticals. Well, yes, but most of the limitations just aren't very relevant for QRP in the field. Here are a few of the characteristics and limitations of the EFHW. There aren't any deal breakers on this list for SOTA work. The reason that this antenna isn't more popular in fixed stations has to do more with impedance matching issues than anything else - the popularity of coaxial cable for transmission lines and the lack of good high-efficiency unun's made it impractical, until recently. Broadband unun's with high transformation ratios are still largely the stuff of experimenters - but the experiments have been promising. So, have at it.<br />
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<li>The EFHW can be built for multiple bands by installing traps or jumpers. I use an EFHW built for 40m with a jumper to shorten it for 30 meters. It works well on 40, 20, 10 with the jumper inserted, and on 30, 17/15 with the jumper open. SWR is 1:1 on the half wave frequencies, and matchable with the KX2 internal tuner on the multiples. I have recently built a trapped antenna with good results. </li>
<li>Ground losses increase off the resonant frequency and efficiency suffers- cut it precisely for your SOTA freq.</li>
<li>While the <i><b>feedpoint resistance</b></i> of the EFHW is quite high, the <i><b>radiation resistanc</b></i>e is approximately the same as a half wave dipole, 73 ohms (the EFHW is essentially a half wave dipole fed at the end instead of the center). Though radials aren't required, ground proximity and other ohmic losses will adversely affect efficiency, depending on the average height of the wire above ground, and the efficiency of the matching transformer, traps, etc., in the system.</li>
<li>the impedance of the EFHW is too high for most matching devices (tuners). A 4:1 or 9:1 unun can bring it into range for most tuners. </li>
<li>for a low SWR without a matching device, the antenna requires approximately a 49:1 unun impedance transformer (14:2 winding ratio) to match 50 ohm sources. It may be necessary to add a capacitor across the source for a match on the higher bands. I used a 64:1 transformer with success as described in another posting. </li>
<li>A counterpoise with an ideal length of .05 wavelengths is recommended. Without a counterpoise, the coax and rig will create the counterpoise. This might be adequate, but if you can affect the SWR by touching the rig, experiment with the counterpoise. </li>
<li>High impedance transformations can be tricky and inefficient. Don't assume your unun is lossless. Care should be taken in the selection of the toroid to avoid losses greater than 10dB. If possible, measure the power into and out of the unun to confirm the efficiency. </li>
<li>Be aware of power limitations and do not overdrive unun's to saturation. Ferrite unun's can be permanently damaged by excessive power. In other words, QRP unun's are for QRP!</li>
<li>Commercial 50:1 unun's in various power ratings are only available from a few suppliers such as QRPGuys, and Pactenna (and high power MyAntenna unun's for base station use). </li>
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In summary, a well designed EFHW is an ideal antenna for QRP situations where a fast deployment is required and center fed dipoles or verticals with radials are not practical. It has been analyzed theoretically and field tested extensively. It is so effective that it has won over many Mountain Goats who started out thinking otherwise. When you absolutely, positively have to set up very quickly and make at least four QSO's after hiking 5 miles to the top of a mountain, the EFHW is a good way to go. </div>
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<br />Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com6tag:blogger.com,1999:blog-2925594336883065481.post-25124769522308378822017-03-12T11:19:00.000-06:002017-06-10T16:22:17.786-06:00Summits on the Air - Mountain Goat Award<div class="separator" style="clear: both; text-align: center;">
<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgYvGx0agabkVlX-b62Wjuq9xsJhD-PJYCN2kLVDCDmfHqYL2QTI85UbeVY5hAMVtkh8h42p5HZYWWbViW4H_V2kzYyL14zMFL0GmYR2Erjr0jos3Sw7vrr-vGD3sWqa35aqw8k4NoaHRM/s1600/wls_20170310_IMG_6420.JPG" imageanchor="1" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><img alt="" border="0" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgYvGx0agabkVlX-b62Wjuq9xsJhD-PJYCN2kLVDCDmfHqYL2QTI85UbeVY5hAMVtkh8h42p5HZYWWbViW4H_V2kzYyL14zMFL0GmYR2Erjr0jos3Sw7vrr-vGD3sWqa35aqw8k4NoaHRM/s320/wls_20170310_IMG_6420.JPG" title="SOTA Mountain Goat Trophy" width="240" /></a></div>
When Heinrich Hertz proved the existence of electromagnetic waves, they were thought to behave like light (travel in a straight line), thus precluding the possibility of using them for long distance communication (more than 12 miles or so). Marconi thought otherwise. Over one hundred years ago, Marconi defied all expert opinion as well as common sense by proving that electromagnetic waves at certain frequencies will follow the curvature of the earth. He shared the 1909 Nobel prize in physics for this discovery. His technique was to use more and more power (up to 15 kilowatts), longer and longer wavelengths (up to 365 meters), and bigger and bigger antennas (huge wire arrays 100's of feet high) to extend the range of his signals,. On December 12, 1901 he successfully spanned the Atlantic "sparking" the electronics age we live in today.<br />
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SOTA activators on summits around the world. continue to stretch the bounds of Marconi's discovery of ionospheric propagation by using flea power, short waves, and small antennas to contact chasers thousands of miles away.<br />
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After 150 summit activations, about 3,000 two way contacts and 1000 activator points, I finally became a SOTA Mountain Goat. I just received this beautiful trophy from England which I will proudly display. This challenge entailed round trip signals to New Zealand, Spain, Japan and England from Colorado with 5 watts (the power of a flashlight) and 50 feet of wire! Here I am in contact with England from the 14,276 foot summit of Mt Antero (right photo).<br />
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<tr><td style="text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhztffUkJolUv1HS8yhCqhODUZvNhvgn5CaigpNK19xHRPxMOTJ_ht5PphusNV14on3z2cKK9tKPAnbqJeaZamlmDWQm8AP46QdszwB0cGpPJOKq12LVksuwZyR9pR7RoF2HcXslx3o5-Y/s1600/28174382885_7ff59049ec_o.jpg" imageanchor="1" style="clear: left; margin-bottom: 1em; margin-left: auto; margin-right: auto;"><img border="0" height="150" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhztffUkJolUv1HS8yhCqhODUZvNhvgn5CaigpNK19xHRPxMOTJ_ht5PphusNV14on3z2cKK9tKPAnbqJeaZamlmDWQm8AP46QdszwB0cGpPJOKq12LVksuwZyR9pR7RoF2HcXslx3o5-Y/s200/28174382885_7ff59049ec_o.jpg" width="200" /></a></td></tr>
<tr><td class="tr-caption" style="text-align: center;">Mt Antero in the distance</td></tr>
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiwFaFBFrBmqqAJRiAFZghAo2WdgnxYS6phYYzU-qOTn5BS3IQwQezMvuyi5MbraGWmB0H8R2CrLRj05nYKDaChfrIl6E3I5f2UAdZNEM3yPfcTc10HA6eomN4pG22nHcmlyf-Nfz2Oh4E/s1600/wls_20160706_IMG_5091+%25282%2529.JPG" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img alt="walton stinson walt" border="0" height="240" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiwFaFBFrBmqqAJRiAFZghAo2WdgnxYS6phYYzU-qOTn5BS3IQwQezMvuyi5MbraGWmB0H8R2CrLRj05nYKDaChfrIl6E3I5f2UAdZNEM3yPfcTc10HA6eomN4pG22nHcmlyf-Nfz2Oh4E/s320/wls_20160706_IMG_5091+%25282%2529.JPG" title="WoCP on Mt Antero" width="320" /></a>Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com0tag:blogger.com,1999:blog-2925594336883065481.post-79826129119441948472017-03-11T16:02:00.002-07:002017-11-25T07:44:04.237-07:00"Weightless" Elecraft KX3 or KX2 microphone for SOTAI operate mostly CW on my SOTA outings, but I always take this light weight mic along since it's built into my earbuds. This is just a standard smartphone ear bud/mic with an adapter purchased on Ebay that allows connection to computer mic/spkr jacks. Turns out that the earphone and mic jacks on the Elecraft KX2 and KX3 are compatible. To transmit, use VOX, or PTT with the XMT button. Note the essential windscreen. This was made with earbud foam hot glued to the mic housing. Keep the glue away from the side with the mic hole. This is a very lightweight microphone solution for the KX2 and KX3. Audio reports are good.<br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiVnxNZGVd3qcWUO_p-44okMR1FcrFlBwfietAjc1fLu4xIQfmLlDi0WQQeVSzavQ0BNfIIhQkefL582qVzoLAKGbAjggiuLE8S-3qVRe_YHCmAN8sHDAZuJ01op2Rv_lbrsEHe7w3GIOo/s1600/wls_20170309_IMG_6414.JPG" imageanchor="1" style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"><img border="0" height="300" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiVnxNZGVd3qcWUO_p-44okMR1FcrFlBwfietAjc1fLu4xIQfmLlDi0WQQeVSzavQ0BNfIIhQkefL582qVzoLAKGbAjggiuLE8S-3qVRe_YHCmAN8sHDAZuJ01op2Rv_lbrsEHe7w3GIOo/s400/wls_20170309_IMG_6414.JPG" width="400" /></a></div>
<br />Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com3tag:blogger.com,1999:blog-2925594336883065481.post-23451204359212004592017-03-10T14:52:00.001-07:002018-09-04T10:52:16.243-06:00SOTA Spotting with the Yaesu FT-1XDRThe Yaesu FT-1XDR is my go to radio for SOTA activations. I mainly use it for APRS spotting to the SOTA spotting system and it works great. The only problem was that I fumbled around in the cold trying to enter the spot. So, I found a way to store, modify and repost old spots. Here's my boring youtube how-to video, if you really have to know....<br />
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<br />Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com2tag:blogger.com,1999:blog-2925594336883065481.post-14252401036180451622017-03-10T14:46:00.001-07:002017-03-10T14:56:36.994-07:00I use Google Sheets for my SOTA logging software. It automatically keeps a cloud backup for me and it easily and quickly provides a CSV file for upload to the SOTA database. Here's my boring youtube video on how to set this up, if you really have to know...<br />
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Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com0tag:blogger.com,1999:blog-2925594336883065481.post-7989296801799386982017-03-08T15:13:00.001-07:002018-05-20T08:48:23.472-06:00PL-259 Assembly Instructions<div align="left">
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Conquering the PL-259</div>
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Walt Stinson,W0CP</div>
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New year's resolutions for hams.... Among the ones I've heard recently is "l will always solder the braid to the PL-259." That got me to thinking about what a hassle it is working with coax and PL-259's (not to mention hardline and N-connectors!).</div>
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Well, many years ago after consulting with Mr. Murphy, I made that same resolution. I faithfully followed the instructions for assembly of connectors in the Handbook. I remember using the tip of a nail to unravel the braid and trimming it with scissors.</div>
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Two moods would fall over me after a session of soldering 259's: Self-righteousness, for I was truly entering the ranks of the deserving; and klutziness, because about half the time l would have to cut of the end I was working on and start all over again. Sometimes, I'd forget to slip on the fitting cover. Other times I'd have an intermittent after a couple of years.</div>
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Finally, after years of trial and error. I devised a fast and foolproof method of assembling the little buggers. If you follow my prescription, I assure you that you too will enter the ranks of the deserving (of course you will also need an antenna). This method is for RG-8u, but can be modified for other coax. Remember that foam style coax has a lower melting point and is trickier to work with. I recommend sticking with solid dielectric coax for this reason.<br />
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Gather up the following tools: (Buy these tools, if you don't have them!!)</div>
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Weller D550 240/325 watt soldering gun or Weller SP-120 soldering iron</div>
1" adjustable pipe cutter (Rigid No. 104, available at hardware stores)<br />
Tape measure with sixteenth inch scale<br />
<span style="font-family: "arial";">Razor blade style cutting tool</span><br />
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Triple core 60/40 solder, .047" diameter</div>
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Black fine point Sharpie pen</div>
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Household style pliers</div>
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Vise (pana vise)<br />
Grease (dielectric, vaseline, pam, etc)</div>
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This method was developed for RG-8u. Remember that foam style coax has a lower melting point and is trickier to work with. I recommend sticking with solid dielectric coax for this reason.<br />
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Here are the steps: (POST THIS BY YOUR WORKBENCH)<br />
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1. Using the razor, cut off 1-1/8" of the outer insulation, exposing the braid.</div>
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2. Put the Weller on high and completely tin the braid</div>
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3. Measure 5/8" from the end of the coax and mark it with the Sharpie.</div>
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4. Using the pipe cutter, scribe the braid at the mark. Then, scribe the braid again 11/16" from the end. These cuts should be to the depth of the dielectric and no further.<br />
5. Now, using the pipe cutter at the scribed point closest to the end, cut through the tinned braid and inner insulation. Be careful not to cut the center conductor. As you get closer to the center conductor, bend the coax a bit to expose the cut so that you don't nick the center conductor. 1/16 inch of the tinned braid should simply fall off at this point due to the second scribe. </div>
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5. Twist off the braid/insulation & tin the exposed center conductor.</div>
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6. <b>Slip on the PL-259 sleeve!!!</b></div>
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7. Screw the coax connector onto the coax using the pliers until the center conductor reaches the tip of the fitting. Put a dab of dielectric grease or vaseline on the coax insulation to reduce friction while screwing on the connector. </div>
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8. Secure coax in vise. Heat a hole in the coax fitting. Apply solder through the hole, melting it into braid.</div>
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9. Apply solder through all holes. Keep fitting hot but work quickly to avoid melting coax center insulation. <b>Don't flex while coax is hot, allow time to cool in the vise before flexing.</b></div>
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10. Solder the tip of the fitting and check continuity.<br />
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Since I have been using this method I have not had one intermittent problem. Moreover, my coax once got caught as I was raising my motorized crank up and the cable just about tore the tri-bander off of the tower! Fortunately, the coax was connected to a balun and a remote switch. The females were ripped out of both of these but my cable was unscathed. This proves another of Murphy's laws - solving one problem simply reveals another.</div>
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KN</div>
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<span style="font-size: xx-small;">(PL-259 Assembly Instructions)</span></div>
Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com0tag:blogger.com,1999:blog-2925594336883065481.post-75525070937962536432016-06-15T07:25:00.000-06:002017-06-15T07:33:14.037-06:00Ameritron ALS-600 SPS with switching power supply- In Depth Review<table border="0" cellpadding="0" cellspacing="0" dir="ltr" style="width: 653px;"><tbody>
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<span style="font-size: small;"> <span style="color: white;">ALS-600</span></span></div>
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<span style="font-size: small;">This is the long version of the ALS-600S review. An abbreviated version of this review first appeared in the March 2005 issue of QST. See QST for lab test results.</span></div>
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<span style="font-size: x-large;">Ameritron ALS-600S with switching power supply </span><span style="font-size: medium;">- Walt Stinson, W0CP</span></div>
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<span style="font-size: small;">Is measuring "Watts Per Pound" any way to judge amplifiers? If so, the ALS-600S just moved way up in the ranking. The overall weight of the amp and power supply has dropped almost in half, to 22.5 lbs from 44.5 lbs. Wary of back strain from moving amps around the shack, my first reaction upon picking up the amp from UPS was "where’s the other box"? The amp and power supply were shipped in one outer box, with a total shipping weight of just 36 lbs.</span><br />
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<span style="font-size: small;">The ALS-600S is an optional upgrade of the popular ALS-600 (previously reviewed in QST, August, 2001). The only difference between the two models is the power supply. In fact, the new power supply is perfectly compatible with all ALS-600 RF decks and can be purchased separately. If that were all there is to it, this review could end here. However, the ALS-600S is so much lighter than its predecessor that it deserves a fresh look.</span><br />
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<span style="font-size: small;">The ALS-600S utilizes four MRF-150 MOS FET RF output transistors. This device is used by many manufacturers in both transceivers and solid state amplifiers (including the Icom IC-7800 & IC-PW1, Yaesu Quadra, and TenTec Hercules). It is a "tried and true" transistor, originally developed by Motorola and now produced by MA/COMM. It's rated at about 300 watts of power dissipation, so there’s some welcome headroom in this design. The ALS-600 RF deck was designed for Ameritron by Tom Rauch, W8JI, who also had a hand in engineering the noise filtering for the new SPS power supply.</span><br />
<span style="font-size: small;"><br /></span><span style="font-size: small;">ALS-600 vs ALS-500. </span>Though not the subject of this review, Ameritron makes another solid state amplifier, the ALS-500M. This amp utilizes 2SC2879 bipolar output transistors, another popular output transistor that runs with 12 volts. While this amp is undoubtedly used by many hams in the shack, its intended application is mobile. The ALS-600S, with its 50v supply, has about 10dB lower IMD than 12 volt models like the ALS-500M, which means a significantly cleaner signal. Moreover, the ALS-500M requires a hefty 80 amps for full output. Such engineering trade-offs are necessary and appropriate for an amplifier running 12 volts in mobile operations. However, for use in the shack, output transistors that run at a higher voltage are desirable.<br />
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<span style="font-size: small;">Solid state FET amplifiers have several obvious advantages. Because the output network is broadband, they do not require tuning. Operation is as easy as setting the correct frequency range on the band switch. Moreover, unlike tubes, the output devices do not deteriorate with use. High voltages are not present, so arcing is not a problem, and the MRF-150 is said to have about the same high-order inter-modulation distortion and momentary overload tolerance as vacuum tube finals. No warm-up operation provides an instant boost in power at the press of a switch.</span><br />
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<span style="font-size: small;">With such advantages, one wonders why solid state amps aren’t more popular. One problem has been the power supply. Apparently, it is easier and less expensive for manufacturers to build a high voltage, low current supply for tubes than to build a high current low voltage switching supply (with low RF noise) for transistors. Ironically, until now, the weight advantage of solid state designs was lost in the conventional power supplies they employ. In fact, solid state amps often have a lower "watts per pound" ratio than their tube counterparts when the weight of the power supply is factored into the equation. Now that Ameritron has addressed that problem, others will certainly follow and the popularity of solid state amps might improve.</span><br />
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<span style="font-size: small;">Tunable tube amplifiers have some clear advantages of their own. The adjustable output networks they employ can be adjusted for SWR changes and buffer the tubes from the "outside world", which in amateur service can be pretty harsh at times. In solid state amps high SWR can cause current and power dissipation to exceed the rating of the output devices. So, RF power FET’s, like those in the ALS-600, require protection from excessive SWR to prevent heat damage. Of course, a manually tuned antenna coupler can always be used with antennas that do not present a nominal load, just as with solid state transceivers.</span><br />
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<span style="font-size: small;">The ALS-600S employs several important protection schemes to improve reliability. At 70 watts of reflected power, the amplifier will fault and automatically switch to standby. At 600 watts output, this will occur when the SWR exceeds 2:1. Reducing the power output to 300 watts, the amplifier will fault at about 3:1 SWR. Toggling the standby switch puts the amplifier back into operation. One way to avoid this faulting is to utilize the ALS-600’s ALC (automatic level control) system to automatically reduce exciter power when the SWR rises. This requires the connection of a shielded audio type cable between the exciter and the amp. The manual does a good job of explaining how to set up the system. The amplifier will also fault if the band selector is set below the operating frequency. A thermal protection circuit will force the amplifier into standby mode when it senses excessive heat. The amp will remain in this mode until the operating temperature drops to a nominal range. Overheating can occur with extended duty cycles that tax the cooling system, or by exceeding the power dissipation rating of the final transistors – a factor of output and SWR.</span><br />
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<span style="font-size: small;">Ten and twelve meter operation requires the addition of a filter board (MOD-10MB), which was obtained from Ameritron for $29.95 and a copy of my license. After removing the top cover, the plug-in board was quickly and easily mounted to the main filter board with four screws. When reinstalling the cover, I was careful to put the vent holes on the same side as the heat sink, as the proper alignment is not otherwise indicated. QSK operation is provided by an external accessory pin-diode switch - model QSK-5 ($349.95). We didn’t test the QSK option.</span></div>
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<span style="font-size: small;">I like to compete from outside the US in DX contests. DXpeditioners have long put a high value on reducing weight, and amplifiers present a problem. My travel amps have included the Yaesu FL-2100, MLA-2500, Alpha 76A, ETO 91B, and ACOM 1000 – heavy beasts all. Years ago, Finnish hams introduced the concept of lightweight DXpedition amps with the FinnFet solid state amps and matching switching supplies they used on several major treks. Available in various power levels, these amps are in the 20 lbs weight class. In late 2001, I decided to find out if the ALS-600 could fill the same niche by mating it with a switching supply and testing it out on a trip to Belize.</span><br />
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<span style="font-size: small;">I acquired a commercial 50 volt switching supply and mated it to the ALS-600 RF deck, just for fun. W1LLU and I used this setup in the 2002 ARRL DX Phone contest, racking up 4,500 QSO’s as V31DJ. Switching power supplies are now standard fare for powering 12v gear, but they haven’t been used much in amplifiers. Aside from the 50 volt requirement of the MRF-150, a big stumbling block is radiated noise. At V31DJ, interference from the commercial switching supply was a problem on some frequencies, especially with the Yagi directly over the shack, and it cost us a few Q’s. This experiment made it quite clear that switching power supplies intended for amateur-use require significant filtering that is absent in general purpose commercial units. It also convinced us of the practicality of mating this amplifier to a switching supply for DX trips - the entire system fit into a case that was previously used to transport the transformer of my previous amplifier, and weighed less. When we returned, I let Ameritron know all about our experiences and encouraged them to look at developing the ALS-600 into a more DXpedition friendly product. They listened!</span><br />
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<span style="font-size: small;">Operating 160-10 meters, multi-single, we unintentionally abused the ALS-600 in just about every possible manner. We ran it into the wrong antenna, put the band switch in the wrong position, and experienced an RF feedback problem that caused excessive drive. We ran it for 48 hours straight with no auxiliary cooling. Nonetheless, I am happy to report that the amp faulted only when it was supposed to. It protected itself from our boneheaded, sleep-deprived band changing maneuvers, and otherwise kept on trucking. One quick toggle of the standby switch was all it ever took to reactivate the amp after a fault. Outside the contest, this amp demonstrated its attributes on the WARC bands, as well. We also gave it a good workout on CW and PSK-31, throttling the power back to 500 watts, as recommended in the manual. Unlike past trips, after a while I found myself not worrying about damaging this amp. It seems quite capable of looking out for itself.</span><br />
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<span style="font-size: small;">The ALS-600SPS power supply provides 50 volts in switch mode at 25 amps maximum (1250 watts) for the MRF-150’s and 14 volts plus and minus at 2 amps for other circuits. There is a separate 12 volt supply for the current surge relay, which also supplies +12 VDC at 200ma maximum to an auxiliary jack on the rear panel of the RF deck. Jumpers allow input voltages between 90-135 VAC and 185-260 VAC. In the USA, the correct setting will almost always be 120 or 240 volts and all my operation was at 120 volts on an ordinary 15 amp household circuit. The SPS interconnects with the RF deck using a heavy duty 6’ cable with Jones connectors. This power supply uses active regulation, as compared to choke regulation in the conventional unit. As a result, the supply voltage is more stable, which keeps the output transistors happy. The supply has a meter on the front panel and, in operation, no sag was apparent in the voltage at full output. I found that the fan noise from the SPS was higher than from the conventional supply or the RF deck. Fortunately, the interconnecting cable is long enough to locate the SPS on the floor. This arrangement frees up some deck space while reducing any annoying fan noise.</span><br />
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I am happy to report that the ALS-600SPS power supply is a big improvement over the off the shelf switching power supply I used 3 years ago. The benefits of engaging a talented RF engineer/ham to refine the power supply design are readily apparent when comparing the radiated noise level of the SPS to the commercial unit. I couldn’t hear any noise at all from the SPS on the vertical or Quad located in the yard next to my shack. I then connected a piece of wire to my transceiver’s antenna jack and laid the wire on top of the SPS. I could hear every wall wart in my shack loud and clear, but tuning through the bands and switching the 600S on/off it took me a few minutes to find one barely audible signal from the SPS. Kudos to Ameritron.<br />
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On the air contacts reported the expected S unit increase in signal strength when the ALS-600 was switched on line. One S unit is nominally 6dB, although the actual calibration varies quite a bit among various receiver models. At 600w output, the calculated increase in strength over a 100 watt transceiver will be about 8 dB. Notably, a 1500w legal limit amplifier will only provide another 4 dB of signal strength – less than an additional S unit. It is important to keep this in mind when considering which amplifier to purchase. I suspect that for many hams, an amplifier in the power class of the ALS-600S provides all the power needed for most situations.<br />
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Using the 600S at home with my Lightning Bolt quad, which exhibits a very low SWR across five bands (20-17-15-12-10), it was easy to drive to its rated output of 500 watts output on CW with a 100w transceiver. On SSB, I obtained 600 watts output on SSB voice peaks. The theoretical output limit of the amp is about 700 watts, but it’s a good idea to stay 100 watts below that in order to keep the distortion products at a low level. Adjacent operators will thank you. Operation on RTTY is possible, but it’s advisable to keep the power below 300 watts unless an auxiliary fan is utilized (Papst 4530Z, part # 410-3140, $43). With the fan, the rating goes up to 500 watts (with a duty cycle of 2 min on, 1 off). The standard power supply has a front panel RTTY switch to reduce the high voltage to 30 volts and the maximum output to about 275 watts. The SPS lacks this feature, so it’s necessary to reduce the drive power when using digital modes.<br />
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It is bad practice to overdrive any amplifier, particularly solid state units. They tend to distort more severely than tubes when overdriven. Ameritron uses a 35 ohm, 50 watt, snap-in attenuating resistor to match the input sensitivity of the 600S to the output of a typical transceiver (older versions used a 45 ohm resistor). This also serves to bring the amp into compliance with FCC regulations that limit the drive sensitivity of amplifiers capable of transmitting on 10/12 meters. The value of this resistor assumes a 100 watt output exciter and yours might be higher or lower. If higher, you’ll have ensure that you throttle back the drive.</div>
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Over time, I came to greatly appreciate the size, weight, reliability and simplicity of this amplifier. My XYL, K0ZV, also enjoyed using the amplifier, especially when chasing DX. Still, there are a few improvements I would like to see. Automatic band switching capability would leverage the convenience of "no-tuneup" and add greatly to the appeal of this amplifier, as would a built-in QSK option<b>.</b> I’d definitely like the SPS to be smaller. Both cabinets have side vent holes, but the SPS is slightly longer and narrower than the RF deck and stacking is awkward. The circuit board on the SPS has unusually wide component spacing when compared to its commercial counterpart and occupies about the same desk space as the old style power supply.<br />
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There appears to be enough room in both the RF deck and SPS to shave another 10-20% off the dimensions, plus the corresponding weight. The SPS meter is a nice touch but it seems unnecessary and could be sacrificed in the interest of reducing size and weight. While some weight improvement could also be obtained by combining the two units into one chassis, getting the power supply off the desk saves space and reduces fan noise. I’d welcome an integrated unit, if the fan noise was reduced along with the combined size.</div>
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The lamps in the RF deck and SPS meters are overly bright and mine burned out after a couple of years. I replaced them with super reliable LED’s. Now that white ones are available, LED’s should be standard for meter illumination. The owner’s manual, while including comprehensive schematics and operating instructions, lacks a concise specifications page. It includes a brief addendum for the SPS (no schematics), but otherwise has not been updated for the 600S.<br />
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In designing any amplifier there are engineering trade-offs. In the real world there is no "perfect" amplifier. In the past, the desire to achieve high performance and low price has necessitated trade-offs of space and weight. As a teenage ham, I owned a Heath Apache that weighed 100 pounds. I doubt that a 120 watt, 100 pound transmitter could sell today. A steady improvement in technology through the ensuing years has permitted size to shrink and weight to drop. For the most part, these advances have not been as evident in amplifiers as they have been in transceivers. For the sake of our backs, it’s time for that to change. Even tube amps can now be designed with a switching supply. Hopefully, we’ll see more examples in the future. There’s nothing fun about lugging around a 60 lbs amplifier – or paying excess baggage charges. But now, fellow Contesters and DXpeditioners, the ALS-600S makes it possible to pack a transceiver and 600 watt amp that together weigh less than 30 pounds.</div>
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(c) Copyright 2004 by Walton Stinson. All rights reserved.</div>
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Walt W0CPhttp://www.blogger.com/profile/01991080320717776141noreply@blogger.com1