Welcome to Ham Radio's Daily Satirical Newsletter since 1990

DX CLUSTER    1.8     3.5     7.0     10    14    18    21    24    28    50      6PM 145.130 NET

WEDNESDAY EDITION: Nice storm here on the coast, lots of damage to the docks and beach's, I will have to get out and shoot some pictures of life on the island.....First impressions of the new Icom 705.....For 18 months, residents of a village in Wales have been mystified as to why their broadband internet crashed every morning. ....

The Space Weather Woman

The latest space weather forecast from Dr Tamitha Skov WX6SWW

LOTW user guide

If you are a new user or planning to use "Logbook of The World" (LoTW), Gary, ZL2IFB, has put together an easy step-by-step guide or should we say manual (about 33 pages with pictures) to help you use LoTW.

The PDF file is available for download at:
https://www.g4ifb.com/LoTW_New_User_Guide.pdf

Venerable AO-7 Satellite Approaching a Return to Full Solar Illumination

Amateur Radio Software Award

Claus, AE0S, reminds everyone that special event station K1A will be active for the 'Amateur Radio Software Award' between September 25th and October 4th, 2020. The special event station promotes innovative, free and open amateur radio software.

The "2020 Amateur Radio Software Award" recipient Anthony Good and his K3NG Arduino CW Keyer software project will be honored during the event.
Nominations for the 2021 awards will also be encouraged.

"The Amateur Radio Software Award" is an annual international award for the recognition of software projects that enhance amateur radio. The award aims to promote amateur radio software development which adhere to the same spirit as amateur radio itself: innovative, free and open.

More info about the special event, operating schedule and the award can be found at:
https://amateurradio
softwareaward.github.io/special-event

To receive the special event QSL card for your contact(s) please send SASE by November 1st to the address below. This allows them to know how many QSL cards they need to print. The address is: Amateur Radio Software Awards, Special Event Station, P.O. Box 126, Ames, IA 50010, USA

 

TUESDAY EDITION: Looks like the wind will pickup to 30-40 mph gusts and seas of 5-10 feet by afternoon, the aftermath of the coastal hurricane.....Ham radio to the rescue.....  My favorite dessert, Tapioca, is damn near extinct in stores and if you find it on Amazon it is over $25 per box. The shortage is due to drought conditions at the source, make 2020 go away....

TODAY'S DUMBASS AD: CABLE - FS/FT: 12 meter & higher dipole wire  

Stranded copper, stripped from old extension cord (that I think I cut out all the compromised parts of). Measured out to about 2 meters 95 cm, as the b/w pair loosely twists together, so a bit longer than that each, once they're separated.
Open to cash or trade offers. In San Diego, CA.

Listing #1506994 - Submitted on 09/22/20 by Callsign N6ATF - IP: ip98-176-190-234.sd.sd.cox.net

Click Here to Email -- Click Here to View Picture -- Send this Ad to a Friend

 

Penny and Songbird....where can you find reruns of this series?

Solar Cycle 25

The Sun is stirring from its latest slumber. As sunspots and flares, signs of a new solar cycle, bubble from the Sun’s surface, scientists wonder what this next cycle will look like.

The short answer is, probably a lot like the last — that is, the past 11 years of the Sun’s life, since that’s the average length of any given cycle.

But the longer story involves a panel of experts that meets once a decade, a fleet of Sun-studying satellites, and dozens of complicated models — all revolving around efforts to understand the mystifying behavior of the star we live with.

NASA scientists study and model the Sun to better understand what it does and why. The Sun has its ups and downs and cycles between them regularly. Roughly every 11 years, at the height of this cycle, the Sun’s magnetic poles flip — on Earth, that’d be like if the North and South Poles swapped places every decade — and the Sun transitions from sluggish to active and stormy. At its quietest, the Sun is at solar minimum; during solar maximum, the Sun blazes with bright flares and solar eruptions.

Solar cycle predictions give a rough idea of what we can expect in terms of space weather, the conditions in space that change much like weather on Earth. Outbursts from the Sun can lead to a range of effects, from ethereal aurora to satellite orbital decay, and disruptions to radio communications or the power grid.

NOAA’s Space Weather Prediction Center is the U.S. government’s official source for space weather forecasts, watches, warnings, and alerts: With accurate predictions, we can prepare.

The work that researchers at NASA and around the world do to advance our solar activity models helps improve those forecasts. In turn, solar cycle forecasts give us a sense of how stormy the Sun will be over the next 11 years and how much radiation spacecraft and astronauts may face during heavy bouts of solar activity.

Modeling the Sun is a tricky business because scientists don’t fully understand the internal churning that causes this magnetic flip-flop. Computer models use equations to represent the Sun, but the star manages to elude them. If the Sun were a machine, it would have countless knobs and dials whose functions and sensitivities remain unknown.

“Over the last 40 years, we’ve come to observe the Sun in much greater detail,” said Lika Guhathakurta, program scientist of the Heliophysics Division at NASA Headquarters. “It’s produced a wealth of information, but quantifying and modeling the solar cycle remains challenging. We’re working against how variable the Sun is, and the complexity of what happens inside the Sun.”

Without fully understanding how the magnetic field, which drives solar activity, moves inside the Sun, scientists have to make some assumptions. The plight of solar modelers could be likened to that of weather forecasters — if they tried to forecast the weather by looking at just the upper atmosphere, and not the critical layers below.

There are many approaches to modeling the Sun in order to develop solar cycle predictions. Some models use ground-based observations spanning hundreds of years; others may use satellite data, which has only been available for the past four decades or so.

In recent years, some researchers have incorporated machine-learning tactics. Models may focus on different precursors scientists have identified are linked to solar activity: Earth’s magnetic field, which responds to the Sun’s, and the strength of the magnetic field at the Sun’s poles are most common.

“Part of the scientific process is whittling these questions down, and working in parallel on the same problem in different ways,” said Maria Weber, an astrophysicist at Delta State University in Cleveland, Mississippi. Each model is one tool among many. “We might find there are different tools that can get us the same outcome, and then you could pick the type that best suits you.”

It’s the job of the Solar Cycle Prediction Panel — co-sponsored by NASA and NOAA, the National Oceanic and Atmospheric Administration — to evaluate all of these models and release an official prediction representing the scientific community’s best efforts.

Meeting every decade since 1989, the panel brings together experts from around the world, including Weber, who served on the panel for Solar Cycle 25. The discussions are known to occasionally get heated, a sign of the complex task at hand and the fervor each scientist has for their favorite models.

In the end, the scientists wrote their predictions on a little piece of paper, Weber said, and the debating began. “Ultimately, we all had to agree, whittling down and adjusting our estimates, so that people felt it best reflected everything we knew up to that point,” she said.

In March 2019, only the fourth time such a panel had convened, the 12 experts considered some 60 different models. In recent years, one seems to be especially successful: the polar magnetic field model. This uses measurements of the magnetic field at the Sun’s north and south poles. The idea is that the magnetic field at the Sun’s poles acts like a seed for the next cycle. If it’s strong during solar minimum, the next solar cycle will be strong; if it’s diminished, the next cycle should be too.

Together, they predicted dates for Cycle 25’s start and peak, and the peak sunspot number, an indicator of how strong the cycle will be. The more sunspots, the higher the sunspot number, and the more solar eruptions a cycle is expected to unleash.

Currently, the Sun’s poles are about as strong as they were at the same point in the last solar cycle, which scientists interpret as signs that Solar Cycle 25 will play out in similar fashion to Cycle 24. Solar Cycle 24 was a feeble cycle, peaking at 114 sunspots (the average is 179). Solar Cycle 25 is now underway and expected to peak with 115 sunspots in July 2025.

Lisa Upton, co-chair of the Solar Cycle 25 Prediction Panel and solar physicist at Space Systems Research Corporation in Westminster, Colorado, compared their task to hurricane forecasting. Meteorologists often consult several models, each spitting out its own possible path a hurricane could take.

“One of the lessons there is you don’t put too much faith in one model, but see what all of the models together can tell you and teach you,” Upton said. As a whole, a group of predictions is more likely to land on the right path.

Some have taken novel approaches to making these predictions. Scientists recently published a new way to survey the solar cycle: Instead of the traditional linear view of time, they used a mathematical technique to map the last 18 solar cycles onto a circle. What emerged was a more orderly pattern of behavior than expected from the Sun.

Their so-called solar clock is like a typical clock, where each roughly 11-year cycle can be described over 12 hours. Instead of the time of day, certain “times” correspond to high solar activity. Right now, the scientists say, it’s about 3 o’clock, near the first uptick in activity that comes at the beginning of each solar cycle. The scientists reported their findings in Geophysical Research Letters.

“The most active Sun — in terms of solar eruptions — happens between 5:30 and about 10:00, when there’s a sharp drop-off in activity as the Sun moves toward minimum,” said Robert Leamon, a solar scientist on the study, based at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “Once we know where we are on the solar clock and can calculate the speed of the cycle we’re in, we can make much more precise predictions about when the next cycle of solar activity will start and stop.”

According to their clock, the Sun’s next quiet period will begin around the first half of 2027.

If Solar Cycle 25 meets the panel’s predictions, it should be weaker than average. Cycle 25 is also expected to end a longer trend over the past four decades, in which the magnetic field at the Sun’s poles were gradually weakening.

As a result, the solar cycles have been steadily weaker too. If Solar Cycle 25 sees an end to this waning, it would quell speculations that the Sun might enter a grand solar minimum, a decades-to-centuries long stretch of little solar activity.

The last such minimum — known as the Maunder minimum — occurred in the middle of what’s known as the Little Ice Age from the 13th to 19th centuries, causing erroneous beliefs that another grand minimum could lead to global cooling.

“There is no indication that we are currently approaching a Maunder-type minimum in solar activity,” Upton said. But even if the Sun dropped into a grand minimum, there’s no reason to think Earth would undergo another Ice Age; not only do scientists theorize that the Little Ice Age occurred for other reasons, but in our contemporary world, greenhouse gases far surpass the Sun’s effects when it comes to changes in Earth’s climate.

Eventually, scientists would like to issue weekly forecasts for the Sun, just like meteorologists do for Earth. But solar cycle and space weather forecasting have far to go. There are still questions about the Sun’s interior to answer and important data to collect.

“One of the things that’s exciting about being a solar physicist is that we’re at the forefront of this — there’s still all these questions that have yet to be answered,” Upton said. “There are still a lot of rocks to unturn.”

Solar Cycle 25 will continue to unfold, and scientists will keep tinkering with their models and watching to see how close their predictions come. It will be another five to six years before they can say who was right — or wrong — all along.

MARS Communications Exercise will Involve Amateur Radio Community

MONDAY EDITION: HRO in Salem NH is open to foot traffic today but ONLY 5 PEOPLE AT A TIME IN THE STORE FOR SAFETY. Just a heads up for this Friday when Joe- JEK was planning a lunch meeting...The newly formed U.S. Space Force is deploying troops to a vast new frontier: the Arabian Peninsula.  Space Force now has a squadron of 20 airmen stationed at Qatar's Al-Udeid Air Base in its first foreign deployment. The force, pushed by President Donald Trump, represents the sixth branch of the U.S. military and the first new military service since the creation of the Air Force in 1947.

My first calculator...

WEEKEND EDITION: HRO in Salem, NH opens up next week to floor traffic. You can go in and spin the knobs again and Joe-JEK is planning on holding court on Friday with a little lunch at the Chinese spot next door at noon....No better time to be a radio nerd....It sure is a swell idea to open the border wide open and let everyone to the USA...

Foundations of Amateur Radio

Simplicity among the complexity ...

My radio shack consists of two radios, identical, well, in as much as that they're the same model, a Yaesu FT-857d. Their memories are different, their microphones are different, but both of them are connected via a coaxial switch to the same VHF and UHF antenna. One of them is also connected to a HF antenna.

Let's call these two radios alpha and bravo.

Alpha is used to host F-troop and play on the local repeater. Bravo is used to do HF stuff. It's also connected to a computer via a serial cable, called a CAT cable, Computer Assisted Tuning, but really, a way to control the radio remotely.

The audio output on the rear of the radio is also connected to the computer.

These two connections are combined to provide me with access to digital modes like PSK31, WSPR and SSTV, though I haven't actually yet made that work. The computer itself is running Linux and depending on what I'm doing on the radio some or other software, often it's fldigi, a cross-platform tool that knows about many different digital modes.

The computer is also connected to the Internet via Wi-Fi, and is used to see what various reporting websites have to say about my station, things like propagation, the DX cluster, an electronic way of seeing what other stations can hear, then there's solar radiation information and other neat tools.

This shack is pretty typical in my circle of friends. I'm lucky enough to have a dedicated table with my shack on it, for others they're lucky to have a shelf in a cupboard, or at the other end of the spectrum, a whole room or building dedicated to the task.

The level of complexity associated with this set-up is not extreme, let's call it in the middle of the range of things you can add to the system to add complexity.

In case you're wondering, you might consider automatic antenna switching, band switches, band filters, amplifiers, more radios, audio switching, automatic voice keyers. If you look at the world of Software Defined Radio, the hardware might include many of those things and then add a computer that's actually doing all the signal processing, making life even more complex.

At the other end of the complexity scale there's a crystal radio.

As I've been growing into this field of amateur radio it's becoming increasingly clear that we as a community, by enlarge, are heading towards maximum complexity.

There's nothing wrong with that as such, but as a QRP, or low-power operator, I often set-up my radio in a temporary setting like a car or a camp site. Complexity in the field is not to be sneezed at and I've lost count of the number of times where complexity has caused me to go off-air.

It occurred to me that it would be helpful to investigate a little bit more just what's possible at the other end of the scale, at the simple end of complexity if you like.

So, I'm intending, before the year is out, supplies permitting, to build a crystal radio from scratch. I realise that I have absolutely no idea what I'm getting myself into, no doubt there will be more complexity that I'm anticipating, but I'm getting myself ready to build something to be able to look at it and say to myself, look, this is how simple you can get with radio.

I'm currently too chicken to commit to making the simplest - legal - transmitter, but if you have suggestions, I'll look into it.

Just so you know, simplicity is an option.

I'm Onno VK6FLAB

Hurricane Watch Net is Tracking New Weather Systems

Northern Florida ARES Requests Clear Frequencies for HF Nets

THURSDAY EDITION: Welcome to the hobby..... RF pollution from electric vehicle wireless chargers ...Just thinking, there is going to be a boat load of plexiglass available after this Covid goes west. no matter where I go I look at a sheet of plexi in my face.....Dumbass of the day: Woman does so well well selling counterfeit goods online, she decides to open a store....Can't  decide which Apple watch to purchase?....Ford is investing $700 million in electric trucks with new plant in Michigan....

Germans in 1918 peddling for power for communications

Northern Florida ARES Requests Clear Frequencies for HF Nets

WEDNESDAY EDITION: Good day ham hobbyists...Thanks to Norm for the headsup on the spectrum scope below...Solar Cycle 25 is officially underway. NASA and NOAA made the announcement during a media teleconference earlier today. According to an international panel of experts, sunspot counts hit rock bottom in Dec. 2019, and have been slowly increasing since.

The NanoVNA made network analyzers cheap enough for almost everyone. Now you can get a $49 spectrum analyzer to go with it. Is it worth it? Watch [IMSAI Guy]’s video after the break for his opinion. From the tinySA.org website:

• Spectrum Analyzer with two inputs, high-quality MF/HF/VHF input for 0.1MHZ-350MHz, lesser quality UHF input for 240MHz-960MHz.
• Switchable resolution bandpass filters for both ranges between 2.6kHz and 640kHz
• Color display showing 290 scan points covering up to the full low or high-frequency range.
• Input Step attenuator from 0dB to 31dB for the MF/HF/VHF input.
• When not used as Spectrum Analyzer it can be used as Signal Generator, MF/HF/VHF sinus output between 0.1MHZ-350MHz, UHF square wave output between 240MHz-960MHz.
• A built-in calibration signal generator that is used for automatic self-test and low input calibration.
• Connected to a PC via USB it becomes a PC controlled Spectrum Analyzer
• Rechargeable battery allowing a minimum of at least 2 hours portable use

A lot of cheap scopes and PC-based scopes can do spectrum analysis, too, ARTICLE

5-MHz Interoperability Channels Designated for Wildfires and Hurricane Sally Response

A History of Ham Rig Visual Design Ham Radio Perspectives' latest video looks at how HF radio designers have tried to modernize the look of equipment, from military rigs to the present. See how how manufacturers such as Collins, Hallicrafters, National, Kenwood, and Icom developed their own "looks." Why do most modern HF rigs look essentially the same now? Plenty of rig images and insights.

Ten-year-old radio amateur on BBC radio and TV On September 15, ten-year-old Caitlin Field M6XTT got some good publicity for amateur radio when she was interviewed on BBC Radio Somerset. She is expected to be on BBC TV on Wednesday, Sept 16 Caitlin is the granddaughter of Practical Wireless magazine editor Don Field G3XTT. She recently passed her Foundation exam and was able to get the former callsign of her dad M6XTT, he now has an Intermediate callsign. On Tuesday, September 15, she was interviewed on BBC Radio Somerset along with Don G3XTT and RSGB General Manager Steve Thomas M1ACB. You can listen to a recording on the web, fast-forward to 0:03:32 for a trailer by Steve M1ACB, then skip to 2:55:38 for the full interview https://bbc.co.uk/sounds/play/p08qdkx4 On Monday, September 14, Caitlin was interviewed for BBC TV. The item is expected to appear in the TV show BBC Points West on Wednesday evening, September 16. You should be available to watch it either on SKY channel 966 or Online at https://bbc.co.uk/programmes/b006pft9

TUESDAY EDITION: Did I see some leaves turning?....The article below is interesting form me seeing that the Rockport office is just a few blocks away from my propery. I have a foot section of the underground cable, my lobsterman friend dragged up a section of the cable and cut off a hunk and gave pieces to friends he knew...

History of the Atlantic Cable & Undersea Communications
from the first submarine cable of 1850 to the worldwide fiber optic network

The COMMERCIAL CABLE COMPANY

The New York Office of the Commmercial Cable Company, from which the Ocean Cable is operated.

Through the kindness of Mr. G. G. Ward, the general manager of the Commercial Cable Company, we shall be enabled in future numbers to give sketches of the stations belonging to that enterprising company, illustrated with well-executed drawings of the buildings and the repairing steamer Mackay Bennett. The Commercial Company work Sir William Thomson's siphon recorder between New York and Canso, a distance of some 900 miles. At this end the cable lands at Coney Island, whence it is brought underground through the streets of Brooklyn, over the famous East River Bridge, and finally up Wall­street to the principal office, a distance of twenty-one miles.

Our readers will not fail to realise the enormous advantages which this cable actually operated from the head office in the heart of the financial district of New York City over the other companies, who are compelled to transmit their traffic through long land lines before reaching the termini of the cables. Communication between Europe and this country would have been entirely interrupted for many hours on January 29th had it not been for the Mackay-Bennett direct New York cable via Coney Island. All the cables of the old lines were working slowly and unsatisfactorily. It would be impossible to estimate the extent of the inconvenience and loss which would have resulted to the financial and business world had communication been entirely closed during Stock Exchange and business hours. Mr. Ward informs us that Dr. Muirhead's system of duplexing is decidedly a genuine success.

THE COMMERCIAL CABLE COMPANY'S STATION, ROCKPORT.

THE Mackay-Bennett cable lands at Cape Ann, Mass., about two miles from the town of Rockport, and is carried underground to the Cable Station in the centre of the last-named place.

Rockport is situated some thirty miles by railway from Boston, and within four miles of Gloucester, a town of 30,000 inhabitants, and the principal shipping centre of New England. In Rockport are no less than seven churches. National and savings banks, a floe hotel, and other public buildings. By unanimous vote the town authorities have prohibited the sale of any kind of intoxicating liquor. The principal industries of the place are the quarrying of granite and the curing of fish. The population is about 5,000. A very pleasant summer resort adjoins, Pigeon Cove by name, where numerous elegant private residences have been erected, overlooking the ocean.

The Commercial Cable Company's Station Norwood Avenue, Rockport, Mass.

The Rockport cable office in September 2013

The office of the Commercial Company is one of the most complete in existence. The operating-room is well lighted and pleasantly situated, and the Superintendent's office, testing-room, and workshop are all equally well arranged. The staff consists of a Superintendent, Mr. Robert Herne, late of the Direct Company at Rye Beach, and formerly in the Postal Telegraph staff in Ireland; an Assistant Superintendent; and six operators.

The Commercial Cable Company's Boston Office (in direct communication with the Ocean Cables)

THE CABLE STEAMER 'MACKAY-BENNETT'

The Commercial Cable Company's repairing steamer, Mackay-Bennett, of which we present an illustration, was built by the well-known firm of John Elder & Co., of Glasgow, was launched from the Fairfield shipyard in September, 1884, and was christened by Mrs. Mackay, wife of the popular millionaire president of the company.

The Cable Steamer "Mackay-Bennett"

The steamer is constructed of mild steel, the scantlings being throughout in excess of Lloyd's requirements for the highest class of three-decked ships, and has from the commencement been subjected to special survey. Her dimensions are:- Length all over, 270 ft.; length between perpendiculars, 250 ft.; breadth (extreme), 40 ft.; depth, moulded, 24 ft. 6 in.; and the gross tonnage is about 2,000 tons. She is built with an elliptic stern, and the stem is curved forward in the form of a cutwater, so as to prevent the cable fouling the forefoot, and also a short poop aft, and a long bridge-house amidships, and a topgallant forecastle.

A double bottom, built in the cellular system, divided into four water­tight compartments for water ballast, is fitted right fore and aft, and in addition to this, water ballast can be carried in the cable tank cones. The number of water-tight bulkheads is five, four of which extend to the upper, and one to the main deck. Large bilge keels are fitted to reduce the rolling of the vessel when laying cables in heavy weather. A rudder is fitted at each end of the ship, with means of locking the same from the upper deck when not required for manoeuvering.

The tanks for stowing the telegraph cable are three in number, two of them placed forward of the engine and boiler space, and one aft, and their collective capacity is 27,200 cubic feet. Paying-out and picking-up machinery is carried on the upper deck, and the cable led over pulleys sup­ported by strong iron girders projecting over the bow and stern. The vessel is schooner rigged, having double topsails on the fore­mast.

Accommodation for the captain is provided in a deckhouse forward of the poop, which house also contains the saloon entrance. The saloon is on the main deck aft, with state rooms on each side for cable engineers, electricians, or passengers, one state room being very large and handsomely fitted up in hard wood for the use of the owner. The ship's officers and engineers are berthed in side-houses under the bridge deck, and a continuation of the engine and boiler casing contains the galley and a large testing-room, fitted with batteries and appliances for testing cables. The crew's quarters are in the topgallant fore­castle, and the firemen's on the main deck forward. Twelve special hands for working the cable are berthed in two rooms on the main deck, one on each side of the main cable tank, and the remainder of this deck is used for workshops and cable store-rooms.

Small cones for the stowing of light cables, grapnels, and picking-up gear are placed in the lower deck and in the hold. On the forward and aft bridge deck is placed a house containing two chart rooms for the use of captain and officers, and on the flying bridge there is a small steering-house. The steamer is fitted with a powerful capstan, windlass, and two horizontal steam-winches. The steering gear for the forward rudder is a hand-screw gear, and the aft one a combined hand and steam or steam gear. An efficient system of telegraphs is provided for manoeuvering the ship as well as for the working of cable machinery.

The vessel is fitted with two sets of compound inverted cylinder engines, each with two cylinders, one high-pressure cylinder 25 in. in diameter, and one low-pressure cylinder 50 in. in diameter, with a stroke of 3 ft. The high-pressure cylinder has a valve of the equilibrium-piston type, and the low­pressure cylinder has an ordinary double-ported slide valve. These valves are worked by the usual double eccentric and link motion. The reversing of each set is effected by one of Messrs. Brown Bros.' steam and hydraulic reversing engines. The surface condensers are placed at the back of each engine, the water being supplied by one of Messrs. W.H. Allen & Co.'s centrifugal pumps. The air, feed and bilge pumps are worked by levers connected with the piston-rod cross-heads of the low-pressure engine. The steam is supplied to the engines by two cylindrical single-ended multitubular boilers. Each boiler is fitted with four of Fox's patent corrugated furnaces. They are made entirely of steel, and constructed for a working pressure of 100 lb. per square inch.

The ship is fitted up entirely with electric light, and powerful lamps for night work. She is commanded by Captain Lugar, late chief officer of the Faraday, and of the Anglo-American Cable Steamer Minia, with Mr. H. Kingsford as the electrician.