Wednesday, January 30, 2013

YC0LOW pada Kontes CQWW 160 CW, 2013

http://topbanddxdiindonesia.blogspot.com/2013/01/yc0low-pada-kontes-cqww-160-cw-2013.html
YC0LOW pada Kontes CQWW 160 CW, 2013

Gbr.1. Saya berfoto dengan David, YD1DRP dan Awi YD1DPM (kanan)

"Kegilaan harus dipelihara, Jo," demikian pesan singkat via Blackberry dari Yon, YB1CCF, Wakil Ketua Orari Lokal Bekasi, beberapa minggu sebelum saya ikut serta dalam Kontes CQWW 160m CW, 26-28 Januari 2013.

Rupanya, itu bukan sekedar 'racun' tetapi memang dukungan penuh karena Yon dkk dari Lokal Bekasi, Orda Jawa Barat, sudah secara serius menyiapkan banyak hal untuk rencana tsb. dilakukan dari RadioLand di Gunung Malang, Subang, Jawa Barat. Mereka antara lain: Joz, YD1JZ, Danu YD1GCL, Aris YD1ARM, Kasmuri YD1MRI, Rizal YD1ORZ, David YD1DRP, Awi YD1DPM (keduanya adalah anggota Orlok Bekasi angkatan ke-56), Yan YC1BTV (Lokal Subang) dll. 

Saya bersyukur karena bisa hadir lagi di tempat itu untuk ikut kontes bergengsi di dunia! Terakhir kali saya ke sana adalah pada kontes yang sama pada Januari 2012. Saya membukukan sekitar 273 CW QSO. Klik http://topbanddxdiindonesia.blogspot.com/2012/02/yc0low1-pada-kontes-cqww-160m-cw-dalam.html.

Pada minggu yang sama di Januari 2013, saya menerima sertifikat dari panitia kontes CQWW 2012 seperti gambar di bawah ini:

Gbr. 2. Sertifikat juara #1 di Indonesia dan #2 di benua Oceania (2012)

Saya hadir di RadioLand sejak Jumat sore, 25 Januari 2013. Sampai saatSun Rise(WIB) di pagi hari pertama berhasil membukukan 101 CW QSO. 

Stasiun 'penglaris' adalah YC1COZ op. Feri dari Bogor. Lalu, YB1AR op Yana pun sudah masuk ke dalam log. Hanya dua stasiun dari Indonesia itulah yang terdengar di hari pertama. Masih ada kesempatan satu malam lagi untuk berlomba! 

Band 160m adalah night time band. Sehingga pada siang harinya ada banyak waktu untuk istirahat dan saya dkk bisa gunakan waktu untuk santai dan berfoto (bawah)

Gbr 3. Berfoto bersama di depan rumah di Radioland 

Pada hari kedua, kondisi propagasi tidak juga membaik. Hanya sedikit perolehan pada malam kedua hingga saat kontes ditutup. Ini tidak lebih baik dari pada perolehan pada tahun 2012. Disayangkan tidak ada stasiun lain dari Indonesia yang terdengar!

Gbr. 4. Claimed score YC0LOW dalam kontes 2013
Usai sudah peran serta YC0LOW pada Kontes CQWW 160m CW, 2013. Tanpa bantuan dan kekompakan dari teman-teman OrariLokal Bekasi dan Lokal Subang, adalah tidak mungkin saya (anggota Lokal Cilandak) bisa menjaring 118 buah QSO, 30 negara DXCC padathe most challenging band ini dengan claimed score 35.309.

Perolehan ini masih jauh di bawah raihan pada kontes yang sama di 2012 (jumlah: 273 QSO). Penyebabnya, adalah kondisi propagasi yang buruk pada top band (160m). 

Terima kasih, teman! I owe you all.

Senang bisa selalu bersama-sama dalam menjalani hobi yang dahsyat ini. Insyaallah, bisa jumpa lagi di tahun depan dalam keadaan yang tetap sejahtera, sehat wal afiat.

Klik juga:
http://topbanddxdiindonesia.blogspot.com/2012/02/yc0low1-pada-kontes-cqww-160m-cw-dalam.html

http://topbanddxdiindonesia.blogspot.com/2013/01/yc0low-pada-kontes-cqww-160-cw-2013.html

Friday, January 25, 2013

ZL9HR Campbell Island DXpedition 2012: A DXer’s Dream Come True!

http://www.ke4ky.net/p/zl9hr-campbell-island-dxpedition-2012.html

ZL9HR 2012


ZL9HR Campbell Island DXpedition 2012:
A DXer’s Dream Come True!

By Glenn Petri KE4KY

January 4, 2013

In 1975, at the young age of twelve, I entered the world of amateur radio when I received my Amateur Novice Class License. Shortly after getting “on the air,” I was completely fascinated with the ability to communicate all over the continental U.S. with such ease. As my antennas, radio equipment, and operating skills began to improve, I was then hearing and easily working stations all over the globe. As time progressed, I was learning more about propagation, pile-ups, QSL-ing, and the finer points of being a DXer. At the ripe old age of fifteen, I was now thoroughly bitten by the DX bug! Forward some thirty-four years later, I am still enthralled with the joy of making a contact with someone on the other side of the globe! Almost daily, I am reading or browsing through the latest DX news available on the Internet, or digesting one of the many bulletins that I subscribe.

Over the last several years, I have viewed several professionally produced videos that profiled some of the larger DXpeditions of the last two decades. As I watched prominent DXers activate many of those rare DXCC entities, I began to feel a growing desire to be one of those operators on the other side of the pile-up. I often asked and wondered:

How is one invited on such a venture? 
By what means do you make it known that you are sincerely interested in being a team member of a future DXpedition?
As I searched answers to those two questions, I was sorely disappointed to find out that most DXpedition teams are comprised of folks that know each other well, or comprised of some very prominent DXers with a long and distinguished expedition resume. Very seldom did I read open invitations for even the not-so-rare locations that are activated every other year or so. Although this seemed a slow path, I could do nothing else except stay on top of the latest DX news and visit the prominent DX websites on a regular basis to keep abreast of any new announcement. 

One positive step that I did take was that of joining the Pacific DXers some two to three years ago. After reading about several of their island adventures, I hoped that some day in the future my affiliation with this group might lead to an opportunity to travel to some unique location and help with a DX activation. It is truly my hope that my calendar will be clear the next time the Pacific DXers shove off for another adventure!

In March of 2012, I received an email from a close friend regarding an upcoming activation of ZL9 Campbell Island NZ (OC-037). The intriguing aspect of the email was that the leaders of the project were actively seeking operators to fill the nine positions available for the operation.

Having viewed the ZL9CI Campbell Island (1999) video more times than I wish to admit, I was quite familiar with the much-wanted DXCC entity. It was one of those DXCC entities that I often dreamed of traveling to one day, and while watching the video, could only hope that I too could someday be part of major DX operation to some place similar. 

Having received the email while I was at work, I did not do much research on how high the entity placed on the DXCC “most wanted” list, but readily knew that any operation to Campbell would be a major undertaking. I quickly responded to the email address provided in the release and kept my fingers crossed. As days went by with no response, I began to dismiss the notion that I would receive even the least bit of consideration for this operation because I had no prior dxpedition experience to provide as qualifications of my radio “experience.”

As I recall, it was just a week or two later I received an email requesting information should I still be interested in being a member of the ZL9 team. Following a day or two of anxious waiting, the email(s) arrived stating that I was now an official member of the 2012 Campbell Island DXpedition! I was very pleased to learn that three other team members were also from the U.S. After some emails and phone calls with the other U.S. ops, it was set that the four of us would meet in mid-May at the 2012 Dayton Hamvention and begin that all-important team bonding process. 

From April through November, the ZL9HR DXpedition was a central focus of all my non-work related activities. Everyone on the team became active in some fashion with helping the project proceed forward. I volunteered for the tasks of creating the Facebook and Twitter pages that were very useful in disseminating information regarding the status of the operation. There were weekly teleconference calls scheduled for the team, and the stream of emails between all of us seemed to be endless. Gene K5GS and I volunteered for the task of creating a safety plan required by the NZ Department of Conservation. This safety plan was a required element to comply with terms of the DoC island entry permit. 

With fall quickly approaching, the operation was moving into high gear. All of the team members participated in the promotion of the project by contacting major DX clubs and foundations, visiting popular Internet DX forums, speaking to local clubs, etc… The ZL9HR web page was also very active, with updates regarding the operation posted via the Internet on a weekly basis.

As mid-November finally arrived, it became time for all of the team to begin the process of assembling in New Zealand. On November 19, I began the much-anticipated journey from Kentucky to Auckland New Zealand. I was fortunate to be able to meet Dave K3EL and Les W2LK in San Francisco, California for the long overnight flight. Upon arrival in Auckland, Jacky ZL3CW offered up his home for overnight stays to four of us prior to proceeding towards Invercargill where the complete team would then assemble for the first time to complete several necessary tasks. I cannot say enough about the hospitality that Jacky and Sue Calvo offered to Don VE7DS, Dave K3EL, Les W2LK, and me. They were great hosts, treating all of us as though we were family. We cannot thank them enough for the generosity they showed during our short stay. 

After our arrival to Invercargill, the team was required to meet representatives of the NZ Department of Conservation. The DoC is the agency responsible for issuing the entry permits and regulating the access to the protected New Zealand Sub-Antarctic Islands. (I would encourage everyone to research the Internet regarding Campbell Island. The island is a unique place and has the status as a World Heritage Site as designated by U.N.E.S.C.O.) 

The DoC permit issued to the ZL9HR team regulated all of our activities for the stay on the island. The permit covered such basic areas as:
Off-limit areas
Pre-determined locations where antennas could be placed
Sea lion precautions
Expected behaviors around protected wildlife
Prohibited activities
Fire precautions
The DoC required an inspection and “quarantine” of all our equipment and personal gear to insure that no foreign seeds, plant matter, insects, or rodents were inadvertently carried to the island and introduced into the recovering eco-system.

DoC Inspection of personal gear

All gear was unpacked from the shipping crates during the inspection process. Individual containers, boxes, radio cases, and tubs were opened for inspection by the DoC staff, and then once inspected were repackaged and sealed by use of plastic tubs or large plastic bags. All tubular antenna pieces were cleared by a blast from a high-pressure air hose, then all ends sealed for transport to the island.

DoC Inspection of Gear

DoC Inspection of gear

DoC Inspection: Everything opened, inspected, then resealed

Even the gen-sets were bagged or wrapped in a shrink-wrap style of plastic film for transport to the island. Since we did not sail for two more days, the team kept just enough clothes and personal items out of our luggage so that the larger duffels and suitcases could remain in the quarantine area until loaded for transport to the port city of Bluff.


DoC Inspection of personal gear

On November 26, the team left for Campbell Island from the port city of Bluff. The expedition yacht EVOHE was the vessel chartered for this trip. Having never sailed in the open ocean, I was not sure what to expect on the 25m length vessel.


The Expedition Yacht EVOHE

Having heard so much about the dreaded seasickness, I was hoping that the 400-mile journey across open seas would not be something that I would come to regret. It was comical to hear all of us speak about the use of “patches” and “pills” to ward off the dreaded retching and other activities that may require the use of a bucket! I never became ill, but I will readily admit that I remained quite attached to my bunk for the journey to and from the island.

Prior to leaving the wharf at Bluff, EVOHE Captain Steve Kafka was receiving the latest updates of the weather and sea conditions between Bluff and Campbell Island. It was determined that with conditions of 50mph plus winds, and nine to eleven meter seas, we would travel no further than the Stewart Island and weather the storm in the safety of a large embayment. The team was extremely disappointed with this turn of events, but realized that safety was the primary concern. After approximately two and half days, we were again sailing towards Campbell. Captain Steve warned us that the seas were still very rough and that we could expect a very bumpy ride while plying through the remnants of the major storm. The swells were expected to be quite severe, with the worst being five to six meters. We were instructed to limit our movements on the vessel and were strongly encouraged to remain in our bunks except for “necessary trips.”

On the morning of November 30 Campbell Island materialized out of the mist. The excitement throughout the team was palpable, with everyone grabbing cameras to capture those first moments of our arrival.

Our first view of Beeman Point, Campbell Island

As we approached Beeman Point, the abandoned MET Station came into full view. For those of us that were familiar with this site, we knew that we had truly arrived! Following the EVOHE dropping anchor in Perseverance Harbour, the zodiac was lowered to the water and the first wave of team members were motoring to the wharf.
In typical Campbell Island fashion, the weather was cloudy, windy, misty, and with a chill that cut you to the bone. On this day, foul weather gear was an absolute must. I am so glad I had invested in my extreme weather parka and bibs for this trip. We had all anticipated the weather to be as we had encountered, we just hoped that we could start the set up process without there being a constant rain.

As the first hours at the island passed, the process of transferring the equipment from the boat was safely accomplished. With the aid of the EVOHE crew, we were able to move the equipment up the hill quickly and in the general area of the Beeman Cove Hostel. Slowly, the antennas were coming on-line, with the team dividing themselves into small units to tackle the simplest antennas first, then moving on to the more complex process of building the Spiderbeams. The EVOHE crew once again provided extra hands for completing these time consuming tasks.

MET Building utilized for ZL9HR

Our goal was to get one or two stations on the air as quickly as possible and then bring other stations on-line as the setup continued. The first QSO in the log: 

12/1/2012 04:25z ZL2BBU 40m SSB

The SSB and CW operations each had their designated location inside the hostel, with the SSB stations located in the old recreation room of the MET building, and the CW stations located in the old dining area off the kitchen. It was just enough distance so that the CW ops were not hearing the chatter from the SSB operators.

Les W2LK (foreground) & Glenn KE4KY operating SSB

Les W2LK, Dave K3EL, & Jacky ZL3CW grinding out the CW QSO's

Glenn KE4KY (foreground) & Jacky ZL3CW working CW

A few pictures of the antennas the ZL9HR team utilized:

Lower Antenna Field: Spiderbeam, Optibeam, 40m Vert., SteppIr Vert.

SteppIr Vertical

Optibeam 12/17 yagi

Upper Antenna Field: Moxons, Spiderbeam, & 160m Vertical

Campbell Island, and nearby Auckland Island, have been instrumental in the restoration and return of the Hooker’s Sea Lion populations. It is one of the rarest sea lions on earth, having nearly been hunted to extinction by sealers throughout the last two centuries. With adult males weighing in at 350-450 kg (roughly 900 pounds), we were constantly on the watch for their sudden appearance. I personally found their behavior intimidating, with the some of the juvenile males closely investigating our activities every chance they had. I was extremely surprised on how mobile the animals were while on the land. They could cover ground very quickly….


Set-up stops as our "visitor" checks things out
.…and often blocked the path to and from the wharf area.

Dave K3EL blocked from the wharf area

Hooker's Sea Lion

As we settled into a routine, our dependence on the great crew of the EVOHE was quite clear. The meals provided were highly anticipated, with the crew providing excellent service to our team. The EVOHE crew was so helpful in many ways, it would be difficult to list every area they assisted our team in accomplishing our daily tasks. Suffice it to say, the EVOHE was a big part of the success of the ZL9HR team!

The EVOHE anchored in Perseverance Harbour

We reluctantly decided to reduce the station positions from six to four for the last twenty-four hours of the operation. This decision based on the weather updates received by the EVOHE, with the forecasts showing another major storm traveling in our direction. Should we tarry too long on the island, it was possible to delay our return to Bluff and possibly interfere with those that had tight travel arrangements and required a timely return. The other consideration, and probably more important, was to avoid another replay of traveling through extremely rough sea conditions…something several of team did not want to experience again!

On 12/08/2012 at 16:04 UTC, the 17m SSB QSO of K9UQN became the last QSO for the ZL9HR DXpedition. As the dawn progressed, we quickly began the final chores of lowering the remaining antennas, packing the remaining HF gear, and performed the dreaded task of re-spooling the thousands of feet of RG-213 coax. It took approximately four hours to remove the equipment from the island and complete our last sweeps for any items inadvertently mislaid or overlooked.

It was now time to take a deep breath, consider our accomplishment, and get ready for the long journey back to our respective homes.

(L to R) KE4KY, 9M6XRO, VE7DS, K5GS, HA5AO, VK2IR, W2LK, K3EL, VK3YP, & ZL3CW
Total QSO’s: 42,922

With this being my first DXpedition, I was quite apprehensive about whether or not my skills would closely match those of other members of this team. I was in the presence of some very good ops, such as ZL3CW and 9M6XRO, which have been part of many major DXpeditions in the past. In short,…I wanted to perform well! 

As I sat down for the first time to start calling “QRZ,” I could feel the rush of adrenaline and the see the trembling in my hands as they rested over the computer keyboard. The SSB pileups were much more personable, with names and states sometimes relayed during the QSO. I quickly developed a style of handling the pileups based on my years of hearing experienced DXers work the massive pileups I may have been trying to break through myself. The CW pileups each had their own distinct personalities, and after a couple of days, I was able to realize what my goals should be for dealing with each. The pileups with no one signal being stronger than any other, and with all signals seemingly on the week side, were certainly a challenge to quickly go from one caller to the next. One issue that slowed this process considerably was the constant calling over stations attempting to provide their complete call after initiating the QSO with only a partial call. At times, three or more attempts were required to obtain the complete call over the QRM. On the flip side, when there were many strong signals being heard up and down the spread, best described as that one signal that just “pops” out over the rest, the QSO rate just seemed to explode, and I had a great feeling of satisfaction for quickly working those wanting that much-needed CW contact. 

As far as the pile-ups were concerned, they were usually very large and mostly well behaved. I prepared myself for the onslaught of callers by doing a fair amount of reading from the likes of N7NG and G3SXW. Their writings, which can be found easily on the Internet, describe exactly the proper QSO mechanics and pileup management that is necessary to efficiently work as many callers you can in the time allowed. By doing some research, I was able to grasp many of the basic concepts of pileup management prior to even stepping foot on the island. While traveling to Campbell, I used every opportunity I could to speak with the more experienced ops to get their own insights on ways to cope with the large pileups. The largest SSB pile I commanded was twenty kilohertz wide at its widest, and the CW pile-ups were generally no larger than ten to fifteen kilohertz at most. A great learning experience and I sincerely hope to build on that experience again in the future!

Being part of this radio expedition is certainly one of the standout moments of my life. Campbell Island is a unique place on our earth….a place that not many people get an opportunity to go. To couple that with being a team member to a top twenty most wanted DXCC entity is still hard for me to put my arms around. As I reflect on the experience, I feel so very blessed to have had this opportunity offered to me. It truly was…
…a dream come true!

Glenn KE4KY


Tuesday, January 22, 2013

The Case for CW

http://www.dxpub.net/The_Case_for_CW.pdf

The Case for CW

James Wades, WA8SIW, for the Michigan Net, QMN and National Radio Emergency Net. This article may be reproduced and distributed provided credit is given to the author and the Michigan Net, QMN and National Radio Emergency Net.

For nearly two decades now, a vocal group of radio amateurs have pushed for the elimination of telegraphy exams as a prerequisite to Amateur Radio Licensing. Many of these individuals have formed opinions about radiotelegraphy based on little or no knowledge of its history or applications.
With the elimination of the FCC Element One telegraphy exam for all classes of Amateur Radio License, it is hoped  that  individuals will  now  take  a more  dispassionate,  logical  look  at radiotelegraphy, without  concerns regarding possible hidden agendas or other politics related to the regulatory process.
It is the purpose of this article to provide an opportunity for new radio amateurs, and others, to gain some insight into the advantages of radiotelegraphy. Ideally, the reader will walk away with a few myths dispelled and perhaps some valuable insights into the motivations of those individuals who continue to strongly support and promote radiotelegraphy despite the development of many new automated digital techniques. Most importantly, it is hoped this article will encourage new radio amateurs to learn and use “CW.”

The beginning….Morse Telegraphy
The fountainhead of all modern communications is the electromagnetic telegraph. The telegraph was a true revolution in telecommunications. It standardized time, made safe rail transportation possible, and revolutionized industry, war, and commerce. It transformed local stock and commodities exchanges into worldwide engines of capitalism and economic progress. The telegraph supported the development of other modern infrastructure, from pipeline storage and distribution systems to modern urban fire departments.
In comparison to the telegraph, its modern successor, the Internet, is simply a refinement. It accomplishes the same tasks more efficiently, but fundamentally, it still performs the same tasks as the telegraph. The real revolution occurred nearly 150 years earlier.
It is interesting to note that the electromagnetic telegraph saw commercial use well into the mid 1980s, at which time it remained in use in railroad, brokerage, and similar business applications. Sadly, modern historians tend to overlook the history of the telegraph, resulting in the general perception that it disappeared with the development of the telephone. Ironically, even the Bell System utilized telegraphy to coordinate the repair and maintenance of long- distance telephone tool circuits, radio and television programming distribution networks, and the like. Telegraph systems were typically less expensive to utilize, easier to maintain, and telegraph carriers could be composited to operate simultaneously on voice circuits.
There must be a reason this very basic technology survived well into the late 20th Century, and it had everything to do with efficiency!

Radiotelegraphy
The development of wireless communications in the late 19th and early 20th century brought the application of telegraphy to radio communications. For the first two decades of the 20th Century, voice communications was difficult to accomplish. The reasons for this are somewhat technical, however, a brief explanation is in order.
Early radio transmitters produced a damped oscillation caused by discharging a high voltage spark across a parallel resonant circuit, which was then coupled to an antenna system. The process was somewhat like ringing a bell. Each high voltage discharge across the gap would excite the L-C circuit, which would then “ring” at its resonant frequency with a decreasing amplitude (decrement) over time until again excited by the succeeding high voltage spark discharge. The “damping” effect associated with early spark transmitters made it impractical to modulate these early RF carriers.
In an attempt to overcome the deficiencies of early spark technology, continuous wave transmitters were developed, which produced undamped oscillations. The earliest versions produced high-power, long wave signals utilizing alternator and arc technology.  While this improved efficiency through better energy transfer and narrower bandwidth, such systems were also difficult to modulate due to the high power levels employed.
Only with the development of reliable, stable vacuum tube transmitters in the late ‘teens and early twenties did it become possible to efficiently transmit voice communications. Low-level circuits could be modulated at manageable levels, and the modulated signal could then be amplified to achieve the needed power output and coverage area required of the radio transmitter. This gave birth to a wide range of technological applications such as commercial radio broadcasting, police radio dispatching, long-distance radiotelephony, and so forth.
It is interesting to note that utilizing “CW” as a description for radiotelegraphy is somewhat of a misnomer dating from this early period. The term actually arose to differentiate a continuous wave radiotelegraph transmitter from its predecessor spark technology. In a sense, all modern radio and wireless devices utilize continuous wave, from 1920s radio transmitter to the latest cellular telephone or Wireless Internet device!

Why CW?
So why did radiotelegraphy, or “CW” remain in widespread use for so many years after the development of voice communications? Why is it still utilized today for some applications? Why do so many radio amateurs place so much emphasis on what often seems to the uninitiated “just another mode of communications.” The answers are many!

Efficiency:
A competent radiotelegraph operator can transfer information at a speed of perhaps 40 to 60 words per minute. The average person on the street talks at speeds ranging from 200 to 300 words minute. Yet, the radiotelegraph operator will often clear message traffic at speeds ranging from two to four times faster than a voice operator handling identical traffic. It seems paradoxical doesn’t it? The reasons for this are surprisingly straightforward.
First, voice methods encourage unnecessary language. The convenience of voice methods, and their similarity to daily, casual discussion, guarantees that a radio operator will trend toward adding unnecessary phrases, comments, and clarifications. The perception that plenty of time is available on the radio circuit due to the immediacy and convenience of voice communications encourages operators to “think aloud,” and engage in spontaneous, informal communications and problem solving.
Second, even when voice methods are managed through strict discipline and training, such as on military radio circuits, problems arise. The letter “B” sounds like “D,” which in turn sounds like “E,” and “C” and so on. Therefore, it becomes necessary to institute phonetic alphabets and similar procedural phrases to maintain accuracy.
When such practices are bypassed in favor of speed, receiving operators tend to make assumptions about the meaning and nature of words, which may only have been partially perceived.   For example, a public health message in reference to “pneumonic plague” is transcribed as “bubonic plague.” “Ethyl” becomes “Methyl” within a complex chemical name, and so on.
Radiotelegraph operators, on the other hand, trend toward eliminating unnecessary language. The fact that the individual operator naturally “thinks” faster than he/she can send constantly encourages the elimination of any unnecessary word, phrase of procedure. Furthermore, phonetic alphabets are unnecessary due to the fact that every sound  pattern  for  the  various  Morse  characters  is  absolutely  unique.  For  example,  complex  chemical  name containing “Methyl” or “Ethyl” are more likely to be transcribed accurately.
It is not uncommon to hear one operator transmitting a quantity of messages to a receiving station, only to hear a single “dit” as acknowledgement of receipt between the messages. This is an example of the trend toward limited language inherent in CW methods. In this example, both operators intuitively understand that the “dit” indicates acknowledgement.

Both a language and a system:
Radiotelegraphy is unique in the world of radio communications because, in the hands of an experienced
operator, it becomes a hybrid between a communications method and a natural language. As such, it combines the best benefits of a digital radio system with the intuitive nature of language. The skilled operator thinks in Morse, he processes the language of Morse “in his mind” in the same way he responds to voice communications, yet, when it comes time to transcribe information, he can do so with greater accuracy due to the “digital” nature of the mode. The operator can seamlessly move from a basic discussion or tactical problem solving mode to a record message traffic exchange with ease.
This is a difficult concept for the beginning radio operator or the uninitiated to understand, particularly when his experience with Morse is limited to 5 or 10 words per minute and before he has successfully made the transition to the point where he can process Morse in the same manner he does the spoken word. As in the case of learning a foreign language, it takes time and effort to develop the skills necessary to utilize Morse as a language. However, once one does, an entire new world of communications efficiency opens to him.

Technical benefits:
We have all heard the tired old explanation that a simple CW transmitter can be easily constructed from just a few parts. This is true, but few today are willing or qualified to do so. However, CW offers a variety of benefits, which make it ideal for basic emergency communications.
First, a ten to twenty watt CW transceiver offers the same level of efficiency as a 50 to 100 watt voice (SSB) transmitter. This has everything to do with bandwidth. Whereas a CW signal occupies perhaps 200 Hertz of spectrum, voice and some data transmissions occupy up to 4000 Hertz of spectrum. So why is this important?
In a disaster situation, one can operate a CW transmitter and communicate reliably in an net situation for days utilizing little more than a couple of lantern batteries or gel cells as a source of primary power due to the low RF power output required for reliable communications. In order to accomplish the same level of reliability, a voice transmitter requires a generator and fuel for extended operation. Those that suggest this is a minimal obstacle have never tried to locate fuel in a disaster area, nor have they tried to compete with police departments, fire departments, state and federal agencies, hospitals, and other critical services for any fuel that remains available.
Drop a CW operator into a disaster area with a simple man-pack radio, a couple hunks of wire, a solar panel and a  few gel-cells,  and one  has  a  reliable  communications  system,  which  can  operate  indefinitely.  Unlike  those operators employing digital modes, he will not need to worry about powering a laptop computer, PDA, and similar peripheral devices, all of which consume additional power. Furthermore, many computers and electronic devices are easily damaged by environmental factors, such as rain, vibration, and so forth. A simple CW unit can be kept nice and dry, with only a simple key exposed to the elements.

Multiplexing:
Set up a radio network with multiple stations, and one quickly discovers that occupied bandwidth is an issue for other  reasons.  A  CW  net  can  efficiently  dispatch  multiple  stations  off-frequency  to  simultaneously  exchange message traffic with minimal impact on overall spectrum use. Unfortunately, voice nets find that the same technique creates real problems. Send two voice operators to simultaneously exchange messages on adjacent frequencies, and one quickly discovers that a single net operation is now consuming a minimum 10.5 KHz! Toss in a couple speech processors or inappropriately adjusted transceivers, and that figure expands yet further.
The fact is, a single CW net can send several traffic exchanges off the main net frequency and still have less impact on adjacent users than a single voice net.

Q-Signals
Q-Signals, procedural signs (prosigns), and the like offer little advantage on voice, yet they do wonders on CW.
A net control operator may say WB8SIW QNY K8SIW d 3 SEOC. Both stations respond with a simple “dit” and they are now 3 KHz lower exchanging a message for the State Emergency Operations Center.
Q-signals, Z-signals, and similar abbreviations and prosigns convey tremendous amounts of information with minimal time and effort. Unfortunately, they do not translate well to voice operation for the reasons mentioned above.

Language barriers:
Not only do Q-signals and prosigns translate universally via CW, a qualified CW operator can transmit and receive messages written in many foreign languages without knowledge of the language itself. The International Morse Code is quite universal and facilitates message exchange despite barriers that would be insurmountable using voice methods.

Basic level of security.
While it is true that some computer programs can detect and decode CW, they often respond poorly to hand- keyed Morse. Additionally, Morse nets are difficult to locate unless one has some prior understanding of net times, frequencies, and procedures. A typical media outlet is not likely to comprehend “QNY D 3” or QMN QNA SEOC.” Rather, they will seek out the voice nets, which are easily understood and followed with a minimum of effort. For situations in which a degree of confidentiality is required, CW is an excellent choice.
CW offers an additional advantage. Whereas voice nets are often inundated with spontaneous, untrained volunteers in time of emergency, CW nets often continue to operate unaffected. While the unfortunate voice operators are contending with inexperienced individuals, poor procedures, and unnecessary language, the CW net keeps right on moving traffic, often at peak efficiency.

Analogs:
Many anti-CW operators point to the fact that the Department of Defense and maritime services no longer utilize CW. This is not entirely true. US Army Special Forces personnel are still trained in Morse, and many of the world’s militaries still utilize it, albeit to a lesser extent than in years past. In fact, the military and maritime services have not so much abandoned CW as they have abandoned the High Frequency infrastructure, which once required its use. Global satellite platforms now support much of our military and maritime communications. As such systems are immune to selective fading, geomagnetic storms, and similar propagation anomalies, there is little need for

CW.
Unfortunately,  Amateur  Radio  does  not  have  access  to  a  stable,  geosynchronous  satellite  system.  Instead, Amateur  Radio  continues  to  rely  on  High  Frequency  spectrum  for  a  much  of  its  statewide,  regional,  and international communications. Such spectrum continues to prove problematic for high-speed digital modes and voice communications due to occasional solar flares and the like.
CW does offer tremendous advantages under poor propagation conditions. This fact, combined with the advantages noted above continues to render CW of value for both routine and emergency communications functions via Amateur Radio.

Digital Modes:
Today, radio amateurs have access to numerous digital modes, some of which occupy limited bandwidth and offer surprising reliability. However, problems arise here as well. Whereas SSB and CW are common denominators, readily available on nearly all High Frequency transceivers, digital modes are not. Visit a random sample of 100 digital equipped operators, and one quickly discovers that no common system is universally available. Unlike an army signal battalion, which has universal standards enforced to insure interoperability and uniformity, no such standards exist within Amateur Radio.   One will encounter different terminal software, different TNC command structures, and a variety of different digital capabilities.
In reality, voice and CW are the only universally available common denominators within Amateur Radio. A
qualified operator can walk up to any HF transceiver, plug in a microphone or key, and communicate instantly on a radio circuit, regardless of the age or type of HF radio transceiver.
It is interesting to note that many digital modes are also cumbersome in a net configuration. Whereas break-in CW offers instant access to a radio net for high-priority traffic, this feature is difficult to implement on a digital radio net. As stated earlier, the fact that CW combines both language skills and many features of digital communications allows a single net control station to quickly check individuals in and out of nets, provide rapid instructions, and yet clear traffic accurately. This is one reason why many emergency drills have revealed that CW nets are consistently more efficient than PSK-31, MFSK-63, and similar modes.

Is Amateur Radio needed?
Some will argue that modern cellular telephone, Internet, and satellite infrastructures are sufficiently developed to the point where High Frequency communications is no longer needed. The argument is somewhat inferential; if Amateur Radio HF resources aren’t needed, then by extension CW is not needed. As such, any imperative to learn or develop CW proficiency is moot.
The  devastation  of  Hurricane  Katrina  revealed  the  fragility  of  our  nation’s  common  carrier  infrastructure.
Ultimately, satellite telephones provided significant service for many government agencies. However, satellite telephones have some significant disadvantages, not the least of which is cost. The average call via satellite telephone can range from 1 to 3 dollars per minute, a steep price for many non-profit relief organizations. Satellite telephones are also problematic when utilized inside buildings.
Most modern telecommunications networks are extremely reliant on the electrical power grid. The distributed nature of networks means many nodes, control points, and RF access points are backed-up only by battery power. This is sufficient for 99 percent of power outages, which may last only hours or days. However, it is extremely insufficient for long-term outages. The fact is, any major disruption to the US electrical power grid due to natural disaster, technological disaster, or coordinated terrorist attack is likely to disrupt extensive segments of most modern networks. Yet, a HF equipped CW operator will be able to efficiently transfer basic text information indefinitely through the use of renewable energy and similar techniques.
Sadly, both the general public and the US government have been lulled into a level of complacency. Our infrastructure is the best in the world and it is so ubiquitous and reliable, most individuals are incapable of imagining a situation, which may render large portions of it inoperative. Yet, such hazards do exist and do occur from time-to- time.

Non-profit and decentralized:
There remains a place in society for a non-profit, decentralized radio service that is neither dependent on
extensive infrastructure nor controlled by any particular government or business organization. Amateur Radio offers independence, survivability, and remains an unprecedented disaster communications resource.
CW in general, and CW nets in particular offer great reliability and tremendous efficiency for both casual use and emergency communications. The wise radio amateur will want to invest the time and effort necessary to become fluent in the language of radiotelegraphy. It is not only fun, but incredibly useful as well.

Author: James Wades

Suggestions for DX Pile-ups………… by Uncle DX

http://www.dxpub.com/dx_news.html


Suggestions for DX Pile-ups………… by Uncle DX

The DX station operators are in charge of any pile-up.

The DX station should make and adhere to their operating rules quietly and respectfully.

The DX station should use, when appropriate, call areas and areas of the world for better accuracy, rate and order.

The DX station should use split operation and spread stations out, keeping in mind others not in the pile-ups. A must.

The DX station should give their call sign at the end of every QSO.

The DX station should create a rhythm or timing which maintains a good rate and allows the pile-up to call at the right time.

The operators in the pile-up, if not sure of a QSO, should dupe and the DX operator continue not wasting time commenting.

The DX station should work those who will create the fastest rate, at least at first, then make an effort to work the weaker stations.

No one should lecture on the air.

Everyone should always require and give full calls.

Know and practice the gray line.

Know the equipment being operated such as the split button, audio levels, keying wave form, etc.

NEVER be a "KC Cop"….never.

Operators giving spots on a DX Cluster should insure their accuracy!

Keep away from personal, political, and religious comment any time on the air and/or the DX Cluster. Keep all comments in the true spirit of ham radio whereby ALL ARE EQUAL.

Don't rush when giving your call when the DX station is standing by, especially on CW. Time will be lost trying to obtain ALL of the call sign.

Don't call the DX station constantly. Get in the rhythm.

Let the last station complete his QSO.

Use only the power it takes and figure out what that is!

Figure out the DX operator's operating practice for greater success.


These "suggestions" provided courtesy of QRZ DX and The DX Magazine,http://www.dxpub.com

Monday, January 21, 2013

VK9NT, Norfolk Island DXpedition, 2013

http://vk9nt.odxg.org/


DXpedition to Norfolk Island 2013

An ODXG team of ten amateur radio operators from Australia and one from the USA will this time be activating Norfolk Island, OC-005, from the 3rd of May till the 13th of May.
Goals

Our goals are to:
* To work as many stations as possible
* Build skills and experience in radio operation and dxpeditioning
* Have some fun and enjoy a bit of a break on a beautiful Pacific Island!

We plan to operate four stations as often as possible, but keep at least two stations on-air 18 hours per day. Visit our "Operating Principles" page for more information on our approach to dxpeditioning and how to work us.

We gratefully acknowledge our logistical and financial supporters for all their assistance. If any organisation or individual would like to contribute to help offset our costs etc please use the link on our Support page. Any donation will be gratefully accepted.

Our main goal is that you are successful in making a contact with us while we are there.
73 and see you on air!

The VK9NT 2013 Team

Team Information

VK9NT is a dxpedition mounted by members of the Oceania DX Group.

Team Members
Chris Chapman - VK3QB (Team Leader)
Luke Steele - VK3HJ
Lee Moyle - VK3GK
Benton Vowles- VK3CBV
Allan Meredith - VK2CA (QSL Manager/Webmaster)
Catherine Hammond - VK4GH
John Hammond - VK4IO
Roy Seabridge - VK3GB
Peter Collins - VK3IJ
Graeme Lewis - VK3GL
San Hutson - K5YY

Team Member Agreement

ODXG believes in openness and is committed to supporting all radio amateurs (both new and experienced) wishing to participate in successful DXpeditioning ; we want to ensure that all team members share a common set of goals; further, we commit to transparency with all DXpedition funds. The attached document formalises our goals and team member roles and responsibilities for this Dxpedition. This includes a budget break down, funding arrangements including dispersal of any surplus monies, team member requirements and operating plans and procedures etc. This is agreed and signed by each team member before the operation begins
A copy of the Team Member Agreement can be found here.

Equipment
Radios: 
Kenwood TS-480X * 2
Elecraft K3 * 2
Elecraft KX3 and amp
Antennas:
Hex Beams, Spider Beam (10,15,20) Verticals and dipoles

Bands
At present we plan to operate on all HF Bands 80 -10 metres. Modes will be SSB, CW and RTTY.

Operating Location
Pacific Palms and Anson Bay Lodge properties - our QTHs and operating locations

Operating Principles - How to work us

VK9NT is being supported by ODXG. One of ODXG's primary goals is to encourage new Dxpedtioners to come onboard and experience a Dxpedition first-hand in a relaxed environment. More experienced operators are always available to assist and provide support in dealing with the pileups, operating procedures and building confidence.

We recognise that many operators are happy to operate the radio for a limited number of hours each day and may wish to experience the other attractions that a new country/island has to offer. As such, please understand and be patient if the operator does not work as quickly as you expect or does not have the confidence in dealing with the “rabble” that often goes with pile-ups. We are all working to improve our skills and become better operators, not just for VK9NT, but for future operations. 
· Our goals are to provide as many amateurs as possible the opportunity to make at least one QSO with VK9NT.
· Before calling, please make sure you can copy VK9NT well enough for a good QSO. If signals are poor, it would be worth your while to wait for better propagation. We will be active for nine days, so there should be adequate opportunities to make your QSOs.
· Most of the time will use split operation only: Generally, we will be listening a few kilohertz higher than our transmit frequency. Please do not accidentally call on our transmit frequency. Instead, determine where we are listening (the VK9NT operator will say, or simply find the pile-up!) and call us there.
· Here are some tips: Who are we working? What is the callsign? Where is this station transmitting? While we are listening, you should quickly scan the pile-up to find the station we are working. On CW, increase your receive bandwidth if necessary. Determine where we are listening and then pick your transmit frequency accordingly.
· Our operators will try hard to work stations in all parts of the world, but some areas will require more time and effort than others. Listen to determine if we are trying to work a particular geographical area (again, the VK9NT operator will announce, for example, “Europe only” or “South America only”). Call if you are in that area. We willnot respond to callers who are not in that area. If you are not in the desired area, spend the waiting time studying the pile-up procedure of the operators.
· Call us only when we are asking for anyone to call, e.g. after a CQ call or, more likely, when an existing QSO has been fully completed. When the VK9NT operator says “VK9NT QRZ?”, announces his listening frequencies, or says “VK9NT… thank you” (“VK9NT TU” on CW) that is your cue to call.
· If we respond immediately with your full callsign and a signal report, fine. In that case just reply with your signal report to us and that is a good QSO. But bear in mind that many stations are likely to be calling and it is possible the VK9NT operator will not have been able to copy your complete callsign the first time. He would then respond to a ‘partial’ call (e.g. “the Mike Zero Alpha station, you’re 59”, or “station ending X-Ray Yankee Zulu, you’re 59”). Please call again then only if your callsign corresponds to that being called, or is very similar (one matching letter in your callsign is NOTenough!) We will not respond to calls from stations other than those we are addressing.
· If you do not hear who has been called, listen for a short time as the operator will repeat the call. We recognise that QRM might have covered the VK9NT signal just as you are being called! If in doubt, please do not call again, but listen to the VK9NT operator. If he has heard you, he will call you again if you do not respond straight away.
· Be sure you have made a good QSO. If you aren’t sure, make another QSO. It is best not to send a report until the operator sends your callsign correctly, as he will take reception of your report as a confirmation that he has copied your callsign correctly. If the operator does not send your callsign correctly, make another QSO later. Logs will be uploaded to ClubLog as often as we are able, so check whether your callsign has been logged correctly before trying for an ‘insurance’ contact.
· Reiterating, we will not work stations who are:
o Calling out of turn – when we are trying to work someone else
o Calling out of the called area – wait for your turn
o Calling with an obviously wrong partial callsign – study the pile-up
· We will not be monitoring the DX Cluster network, so do not try to communicate with us that way
· We understand that no-one is perfect, and that everyone makes mistakes. People will transmit on our frequency, and they will do so repeatedly because often they can’t hear the DX station. Please don’t get frustrated and respond to this: let us deal with the situation!
Our thanks to Wayne N7NG, Steve 9M6DXX and members of the T32C and VK9NT team for contributing to this document.

QSL Information - Please read
OQRS: Online QSL Request (Bureau and Direct available) at Clublog is the PREFERRED method. 
We do not need your qsl cards but are of course very happy to supply one of ours to you.
Please note all direct requests without sufficient postage etc will be returned via the bureau system.
We would prefer to lighten the load on QSL bureaus, at least one way, and of course the OQRS will make the Bureau response much faster! Logs will also be available as soon as possible after the dxpedition on LotW (ARRL Logbook of the World). - again please consider this method instead of bureau cards etc.
QSL either OQRS (Clublog), ARRL LotW, Direct or via the VK QSL Bureau to VK2CA
Direct - (if for some reason you cannot use the OQRS or LotW)

Direct QSLing rules (please read):
All Direct to VK2CA only - please do not send to other team members!
At least 1 new version IRC (preferred if possible) or US$2 (in good condition if possible) for return postage.
Please use UTC/GMT times (not JST or others)
Please do not send stamps (even Australian) as it just makes things hard to manage. (I do collect stamps so if you have some from your own country I would be very happy to receive some - even used ones - for my collection)
Please include a self addressed envelope.
Please try to supply a self-sealing envelope as licking hundreds of them is not that much fun :-)
Please do not use envelopes that do not seal at all! (strange but true!)
Make sure your return envelope, if folded, has the fold to the bottom of the sending envelope. This saves it being cut in half when the original is opened.
Please mark your return envelope as "Air Mail" or use a pre-printed Air Mail envelopes
It would be helpful if your QSL card had your callsign on both sides
I am happy to include past operations but please list each operation on a separatecard (this applies to Bureau cards as well).
Please only QSL via one route. e.g. If you send a card direct do not send another via the Bureau! Extra work with no benefit to anyone as I will not send twice!
Note: No, or insufficient, postage QSLs will be returned via the Bureau system.
We don't mind paying for our trip....but we don't think we should have to pay for your direct card as well!
Note: VK QSLs need only supply SSAE (Stamped Self Addressed Envelope)

Direct Address:
 
A. Meredith
PO Box 890
Mudgee
NSW 2850
Australia

Electronic QSL
ARRL Logbook of the World (LotW) updates will be available as soon as possible after completion of operation.

TRIATHLON-DX-CONTEST RULES

http://triathlon-dx-contest.gr/contest/index.php/rules



TRIATHLON-DX-CONTEST RULES
Download in PDF: English - Italian (tnx IK0EFR) - Bulgarian (tnx LZ3FN) - Greek


1. Objective
A triathlon is a multi-sport event involving the completion of three continuous and sequential endurance events. The word "triathlon" is from Greek origin of trei (three) and of athlos (contest). While many triathlon variations of the sport exist, triathlon, in its ham form, involves the three most popular modes RTTY, SSB and CW. Triathletes compete for the biggest score in its Amateur Radio variation. Amateurs around the world will try to contact other amateurs in as many countries as possible, as many Greeks amateurs as possible and finally try to get the title of the winner. Everyone works everyone.

2. Bands
Five bands only: 3.5, 7, 14, 21 and 28 MHz according IARU band plan.

3. Date
From 00:00 UTC until 23:59 UTC of Saturday, the 1st full weekend of February, every year. This year at 2-3 of February 2013.

4. Modes
RTTY – SSB – CW as follows: from 00:00-07:59 UTC only RTTY, from 08:00-15:59 UTC only SSB, and from 16:00-23:59 UTC only CW.

5. Categories
SOABAM Single Operator-All Bands-All Modes.
SOABRTTY Single Operator-All Bands- only RTTY
SOABSSB Single Operator-All Bands- only SSB
SOABCW Single Operator-All Bands- only CW
Team Triathlon (A team consists of any three radio amateurs. Everyone must operate only one of the three modes. A person may be on only one team. Competing on a team will not prevent any team member from submitting his/her personal score for a single mode entry. A list of a team's members must be received by the contest manager by the time the contest begins. Email your Team at dxtriathlon@gmail.com).
Only one transmitter may be used and it may make a maximum of 8 band changes in any clock hour (run transmitter).
Exception:
One and only one second transmitter may be used—if and only if—the station worked is a new multiplier (multiplier transmitter). The multiplier transmitter may also make a maximum of 8 band changes in any clock hour. The run and multiplier transmitters are governed by independent 8-band-change rules. A clock hour runs from 00 through 59 minutes. The multiplier station cannot call CQ (solicit contacts). The run transmitter or multiplier transmitter for each QSO, must be indicated in the log.

If a log contains QSOs in more than one mode it will be judged as an SOABAM entry, unless otherwise specified.

6. Exchanges
All Stations (including Greek) send RST + Serial number. Remember that Everyone works everyone.

7. Points
1 point for contacts between stations on the same country
2 points for contacts between stations on the same continent but different countries
3 points for contacts between stations on different continents
3 additional points for every contact with a Greek station (for example SV-SV=4 points, DL-SV=5 points, JA-SV=6 points). That is Greeks give 4 points for other Greeks, 5 points for Europeans and 6 points for stations from other Continents. As Greeks count every station transmits from Greece (DXCC entities: SV, SV5, SV9, SV/A)
Dupes QSOs count only once. No penalties for Dupes.

8. Multipliers
Two types of multipliers will be used:
A multiplier of one (1) for each different DXCC entity contacted per Band and Mode and
A multiplier of one (1) for each Greek station contacted regardless of Band and Mode. Everyone who transmits from Greece (either SV, SV5, SV9 or SV/A) counts for Greek. Every worked Greek DXCC entity also counts as multiplier (that means the first qso with SV, SV5, SV9 and SV/A is a double multiplier the first time you work it).

9. Scoring
The final score is the result of the total QSO points multiplied by the sum of multipliers.
That is:
Final Score = [ (total QSOs with amateurs in your country x 1) +(total QSOs with amateurs in same continent x 2) +(total QSOs with amateurs in other continent x 3) +(total QSOs with amateurs from Greece x 4 or 5 or 6) ] X [(DXCC entities per band on RTTY) + (DXCC entities per band on CW) + (DXCC entities per band on SSB) + (number of different SV stations worked) ]
Example: Let’s say a DL station (from Europe) made during the entire contest, 100 qsos with Europe (0 with Germany), 50 qsos with other continents, 10 qsos with SV hams. His points will be [(100x2)+(50x3)+(10x5)]=[200+150+50]=400 points. The same station worked 20 dxcc entities on RTTY (10 entities on 20m and 10 on 40m), 15 entities on CW (all on 80m), 10 entities on SSB (all on 15m) and 5 different SV stations during the contest. His multipliers will be: 20+15+10+5=50. So his final score will be 400x50=20000.

10. Awards
Certificate and plaque plus a special gift to the winner of Triathlon in the World.
Certificate to the winner of Triathlon in every continent.
Certificate to the winner of RTTY in every continent.
Certificate to the winner of SSB in every continent.
Certificate to the winner of CW in every continent.
Certificate to every member at the winner team of Triathlon in the World.
Certificate for the first station in Triathlon in any DXCC entity and in each call area of the United States, Canada and Japan (we should receive at least 3 logs and the first one should have more than 100 qsos to qualify).
Certificate to the first SWL in world.
Certificate and plaque to the first Greek station in Triathlon.
Certificate to the first Greek station in every mode.
Contest Committee reserves the right to award more entries.

11. Logs
Submit your Log in the Cabrillo file format to the email dxtriathlon@gmail.com until the end of February in the same year. Be sure to put the STATION CALL SIGN in the “Subject:” line of each message.
Cabrillo head must be TRIATHLON-DX-CONTEST.
By submitting a log to the Triathlon DX Contest, the entrant agrees to have the log open to the public. If possible, we would appreciate complete frequencies in the log.
SWL logs are also accepted either in Cabrillo either in ASCII. If these are in ASCII should contain date, time (in UTC), band and both stations heard. You should send also a summary sheet with the score, your name and address and your email.
Every received log will be confirmed by email.
All times must be in UTC.
Electronic submission implies a signed declaration that all contest rules and regulations for amateur radio in the country of operation have been observed.

12. General Rules
The entrant agrees that the Triathlon DX Contest Committee reserves the right to reject any entry for non-compliance with the rules.
Taking credit for excessive unverifiable QSOs or unverifiable multipliers may result in disqualification at the discretion of the Triathlon DX Contest Committee.
Every participant accepts committee’s decisions as final and confirms that he has operated according his license rules. He accepts also that Committee can public his log if it is needed.
Remote receivers and transmitters are allowed if the remote receiver and remote transceiver are in the same DXCC entity and are not more than 150 Km far one from the other. The remote receiver must be used exclusively by only one operator.
Any public QSO alerting assistance is allowed. This includes, but is not limited to, DX Cluster-type networks, local or remote Skimmer and/or Skimmer-like technology and reverse beacon network.
You can not exceed the power which is allowed by your license. We count the power at the output of the active amplifier.
It is not allowed to spot in the clusters yourself or to ask from others to spot you. This is a good reason for disqualification.
Only a signal at a time is allowed.
Every disqualified station will not be eligible for an award for a number of years. The Committee will announce the penalty for every disqualified station separately depended of the reason he was disqualified.
Questions to Contest’s manager at email dxtriathlon@gmail.com

Thursday, January 17, 2013

DXpedition of the Year – Results

http://dx-world.net/2013/dxpedition-of-the-year-results/

DXpedition of the Year – Results

On January 15th, after one full month of voting, the “DXpedition of the Year 2012” survey closed. Thank you to everyone who participated.

Every forthcoming December, with the principle aim of being the standard bearer for such polls, DX World will run the “DXpedition of the Year” survey in recognition of all efforts and operating skills exhibited by various expeditions throughout a 12-month calendar year.

Max IK8LOV explains a few points, primarily on how the poll was conducted in a fair spirit, without duplicate votes, and overall voting numbers.


To avoid dupes, votes of “friends of friends” or even votes expressed by internet robots, we decided to adopt a new and “personalized” poll platform using some very strict vote-protection techniques such as email confirmation and Captcha. (We understand a tiny amount of operators had initial difficulty when creating a voting account due to Captcha, but it’s testament to this process that the poll is 100% clean).

Results evidently showed that voters had a very clear intention on who they’d vote for. Where did voters come from? The answer is quite simply almost everywhere! The poll allowed us to observe voters’ origin so we could see that all continents and the majority of countries / regions were homogeneously represented.

We are proud to announce that HK0NA – Malpelo has won the DX World – DXpedition of the Year 2012 poll. True recognition and hearty congratulations to all involved in that fantastic expedition.

Acknowledgement must also be made to 7O6T – Yemen who came runner-up. It was duly noted, at one point, this DXpedition was top of the leader board as votes were cast. A job well done indeed.


Monday, January 14, 2013

The Contesting Code of Ethics

http://contestuniversity.com/attachments/The_Contesting_Code_of_Ethics.pdf




The Contesting Code of Ethics, annotated

1.  I will learn and obey the rules of any contest I enter, including the rules of my entry category.

Many people mistakenly assume that the rules are the same for every contest, and they never change. Some contests allow single operators to use the cluster, some don’t. Some have minimum off-time periods, some don’t. Some are limited to a certain power level, some are not.. If you want to play by the rules, you have to know the rules!

2.  I will obey the rules for amateur radio in my country.

This is especially true if you operate outside your home country. Make sure you know the band limits and power limits.

3.  I will not modify my log after the contest by using additional data sources to correct callsign/exchange errors.

When it’s over, it’s over. Some people believe logs should be submitted as-is at the end of the contest. Others want to proofread the log once to correct obvious typographical errors or things that were noted
during the contest. However, intensive “log-scrubbing” activities after the contest that are generally viewed as inappropriate include comparing the callsigns in the log to QRZ.COM and similar databases, asking other people for advice on a suspect callsign, emailing someone you have worked to confirm his callsign and/or exchange.

4.  I will accept the judging and scoring decisions of the contest sponsor as final.

It is extremely poor sportsmanship to challenge the decisions of the contest sponsor, especially in public. The log-checkers are volunteers who do their best to determine the correct order of finish. Mistakes DO happen in the process, and valid QSOs are sometimes removed or penalized. However, many more incorrect QSOs are left in logs because the software cannot prove them to be wrong.

5.  I will adhere to the DX Code of Conduct in my operating style (see dx-code.org).

Listen, listen, listen; only call when you can hear the station; never trust the cluster (copy the call yourself!)
and many more tips that will actually help your accuracy.

6.  I will yield my frequency to any emergency communications activity.

Contesting is a game. Emergencies are real life. If you were in a disaster area, would you want someone calling “CQ Contest” on your frequency?

7.  I will operate my transmitter with sufficient signal quality to minimize interference to others.

It is extremely poor sportsmanship to operate a transmitter with key clicks, or overdrive an amplifier to create splatter in an effort to create a clear frequency. If everyone did it, there would be no room on the bands.

www.wwrof.org

ZK3N, TOKELAU DXpedition 2013 Nukunonu (IOTA OC-048)

http://www.tokelau2013.de/

TOKELAU DXpedition 2013
Nukunonu (IOTA OC-048)

ZK3N



We (Guenter, DL2AWG and Hans, DL6JGN) are glad to inform you that our small group will be on from Nukunonu - Tokelau Islands (IOTA OC-048). The operate period is of April 25th to May 8th 2013.

The coordinates: 09o12'02'' S, 171o50'53'' E

Nukunonu is a group of coral islets within Tokelau in the south Pacific Ocean. Covering 5.5 km², it is the largest of the three islands that constitute Tokelau, and is composed of an atoll surrounding a central lagoon, which itself covers some 90 km².



Guenter, DL2AWGBorn 1952, licensed 1974 (as DM3ZCK). Other calls used: ZK1AWG, 3D2AW, A35WG, 5W0GW, FG/DL2AWG, J79WG, FM/DL2AWG, S79GG, YJ0AWG, TI7/DL2AWG, TI9KK, H44WG, 6W/DL2AWG

Hans, DL6JGNBorn 1947, licensed 1968 (as DM5XBN). Other calls used: DM2FGN, Y26GN, TX9, 5H1GHW, 3D20CR, E51M.

Activity will be on 80- 10 meters using CW, SSB and the Digital modes. We using a TS590 with a Tokyo Hy-Power solid state amp; AV620 and GPs for 30, 40 and 80m.
Subject to a reliable Internet connection, we will upload the log to Clublog on a daily basis. Otherwise the complete log will be uploaded upon our return.
QSL via DL2AWG.