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Professional HF Work?
I've been an amateur operator for a little over a year now and one of
my favorite parts of the hobby is soaking up stories from previous decades. One of the things I'm curious about is professional HF work. I've heard it mentioned in passing that when the early trans-Atlantic cables went down they would shift to HF circuits as available to try and pick up the slack. So, what else is out there. I know the military has always been heavily invested in radio gear, but what else was (and is?) there? I'd love to hear from anyone who ever brought home a paycheck for working the airwaves. Jon KC2PNF |
Professional HF Work?
On May 8, 7:15 am, BNB Sound wrote:
So, what else is out there. Commercial shipping and aviation, press (AP, UPI, Reuters, etc.), weather stations, outback schools in Austrailia and Canada, shortwave broadcasters, rural telephone systems (an HF radio link existed into a South Dakota Indian reservation into the 1970's), government communications in large countries such as China and Russia, public marine telephone, and more. Pick up a copy of a "SWL Directory" and you'll be amazed! 73, RDW |
Professional HF Work?
On Tue, 8 May 2007 03:15:51 EDT, BNB Sound wrote in .com:
I've been an amateur operator for a little over a year now and one of my favorite parts of the hobby is soaking up stories from previous decades. One of the things I'm curious about is professional HF work. I've heard it mentioned in passing that when the early trans-Atlantic cables went down they would shift to HF circuits as available to try and pick up the slack. So, what else is out there. I know the military has always been heavily invested in radio gear, but what else was (and is?) there? I'd love to hear from anyone who ever brought home a paycheck for working the airwaves. When I was stationed at Camp Drake, Japan, some time after Len left, we were still using HF circuits to ship data (60 Baud TTY, 2400 Baud "high speed data", and other stuff slower than 2400 Baud) to various places around the world. I was there 2 years, starting in Jan '68. The TX and RX sites were in Kashiwa and Owada, though I can't remember which was which. We also used HF circuits at Osan AB, ROK, and some other places where I was stationed. Never a hint of Morse, though; it was all TTY and synchronous data. You do know about the Coastie CW op's pages at http://www.radiomarine.org/tales.html? These are gripping, and in one case I found them hair-raising. I, too, would love to hear from non-military, non-amateur HF users. -- Mike Andrews, W5EGO Tired old sysadmin |
Professional HF Work?
"Mike Andrews" wrote on Tue, 8 May 2007 11:11:15
EDT: On Tue, 8 May 2007 03:15:51 EDT, BNB Sound wrote I've been an amateur operator for a little over a year now and one of my favorite parts of the hobby is soaking up stories from previous decades. One of the things I'm curious about is professional HF work. I've heard it mentioned in passing that when the early trans-Atlantic cables went down they would shift to HF circuits as available to try and pick up the slack. So, what else is out there. I know the military has always been heavily invested in radio gear, but what else was (and is?) there? I'd love to hear from anyone who ever brought home a paycheck for working the airwaves. When I was stationed at Camp Drake, Japan, some time after Len left, we were still using HF circuits to ship data (60 Baud TTY, 2400 Baud "high speed data", and other stuff slower than 2400 Baud) to various places around the world. I was there 2 years, starting in Jan '68. The TX and RX sites were in Kashiwa and Owada, though I can't remember which was which. Kashiwa was the transmitter site built on an old WWII airfield with about two square miles of mostly wire antennas (lots of rhombics), NE of Tokyo. Owada (for Camp Owada) originally was a shared USA-USAF receiver site with maybe twice the antenna field size scattered over numerous small farms NNW of Tokyo. Army built most of it and control was transferred to USAF in 1963. In 1978 nearly everything was given back to the Japanese government. Parts of "Owada" receiving site was still active a decade later but under control of the US Intelligence Agencies as an intercept site. [no public info on such work :-) ] We also used HF circuits at Osan AB, ROK, and some other places where I was stationed. Never a hint of Morse, though; it was all TTY and synchronous data. True. Even during WWII the teleprinter was the majority communications medium for the military, regardless of the stories that have circulated on morse code use from that War. The center for Army worldwide communications was Fort Detrick, MD, or radio callsign WAR (Washington Army Radio). :-) There were separate transmitter (Woodbridge, VA) and receiver (La Plata, MD) sites with the control center at Ft. Detrick being primarily a TTY tape relay unit feeding the Pentagon and 70-odd TTY trunk circuits to major communications centers worldwide. Tape relay folks used the network identifier rather than radio callsign. WAR had "RUEP" at Fort Detrick while Far East Command HQ in Tokyo had "RUAP." [TTY node IDs always began with "R" but I never found out why...] TTY was much preferred for several reasons: It was fast, 60 or 100 words per minute with electromechanical terminals; it would have a printed record at both Tx and Rx relay nodes; it could be on punched paper tape with printing, ideal for human relaying to other terminals; it could be encrypted-decrypted on-line or off-line, vital during hostile times such as the Cold War. Note: The USA rolling-key encryption system used from WWII until the capture of the USS Pueblo was never known to have been broken by any foreign intelligence service. TTYs never needed bathroom breaks, were "fed" only when paper and ribbons reached their end, and could work 24 hours a day. The USA, USN, and USAF operated their parts of the Defense Communications System 24/7...and there were trade-offs between all branches on the HF circuits, each branch helping the other out of local problem situations. Between the end of WWII and towards the beginning of the 1980s the worldwide military radio communications networks were immense, larger than the combined resources of all USA civilian radio communications networks. The Army's networks in Europe, primarily Germany, are illustrated on the excellent historical site (1945 to 1989) www.usarmygermany.com by Walter Elkins. In the Far East of 1962 the Signal Corps had http://sujan.hallikainen.org/Broadca...phabetSoup.pdf By 1970 the US military had a better overall organization and new kinds of equipment. Troposcatter (on low microwaves) was replacing short-haul (under 400 miles) HF radio circuits. LOS microwave links were replacing more and more land wire circuits. AUTOVON (automatic voice) and AUTODIN (automatic digital) circuits came into being, integrated with civilian communications infrastructure. By 1980 the military satellites were beginning to take over the really long-haul HF circuits, offering huge bandwidth capability and thus very fast throughput. Add to that the buried and underwater fiber-optic cables of civilian companies leasing space to the government and military, available throughputs into the GigaBit region. HF radio was relegated to a standby/back-up role where it remains to this day. Radiation-hardened comm sats are the medium of choice for the US military now. The Defense Switched Network (DSN) was formed out of the old AUTOVON and AUTODIN with the Internet protocols and became the "government's own Internet" with the added capability of very robust encryption and the ability to tie in directly with the existing communications infrastructure or be used directly with comm sats. That eliminated the old HF torn-tape message system and subsequent delays of manual relaying of p-tape. In addition, all DSN nodes can be alerted with "Flash" priority warnings or messages, all at the same time, something not possible with the older HF relay system. You do know about the Coastie CW op's pages at http://www.radiomarine.org/tales.html? These are gripping, and in one case I found them hair-raising. I, too, would love to hear from non-military, non-amateur HF users. One could go to the more affluent private boat owners who do deep-water sailing. They use HF SSB away from harbors. Not much radio-related "hair raising" stuff there, except maybe what is shown on "CSI: Miami." :-) The first chapter of the "Collins Sideband Book" by Pappenfus, Bruene, and Schoenike shows an AT&T SSB map with direct and switched links to worldwide locations, circa 1960. I count about 122 stations on that map worldwide. Considering that each commercial SSB circuit of the time could carry two voice and eight TTY channels simultaneously, that's fairly large. On the other hand the service was 24/7 and rather routine, not much emotion-raising (except to the users of such services). HF use today, other than amateur, CB, and government, is relegated to maritime radio on deep water routes (SSB voice and data), air carrier long-route-over-water communications (SSB voice), BC (AM and digital voice-music), some comms services that haven't upgraded to sats or fiber-optics, and RF ID stations in stores. It's a changed radio world compared to a half century ago. 73, Len AF6AY |
Professional HF Work?
On May 9, 11:07 am, AF6AY wrote:
"Mike Andrews" wrote on Tue, 8 May 2007 11:11:15 EDT: On Tue, 8 May 2007 03:15:51 EDT, BNB Sound wrote The first chapter of the "Collins Sideband Book" by Pappenfus, Bruene, and Schoenike shows an AT&T SSB map with direct and switched links to worldwide locations, circa 1960. I count about 122 stations on that map worldwide. Considering that each commercial SSB circuit of the time could carry two voice and eight TTY channels simultaneously, that's fairly large. On the other hand the service was 24/7 and rather routine, not much emotion-raising (except to the users of such services). does much if any of this survive to your knowledge? |
Professional HF Work?
On May 9, 9:02 am, an old freind wrote:
On May 9, 11:07 am, AF6AY wrote: "Mike Andrews" wrote on Tue, 8 May 2007 11:11:15 EDT: On Tue, 8 May 2007 03:15:51 EDT, BNB Sound wrote The first chapter of the "Collins Sideband Book" by Pappenfus, Bruene, and Schoenike shows an AT&T SSB map with direct and switched links to worldwide locations, circa 1960. I count about 122 stations on that map worldwide. Considering that each commercial SSB circuit of the time could carry two voice and eight TTY channels simultaneously, that's fairly large. On the other hand the service was 24/7 and rather routine, not much emotion-raising (except to the users of such services). does much if any of this survive to your knowledge? Not a great deal of it is publicized so it is hard to say. Most of the government and military HF stations have changed from massive terminals to much smaller ones for specific agencies. Those can be seen in websites carrying SHARES information. The government conversion to ALE techniques has changed the nature of stations' operations and reduced the need for large stations with fixed wire antennas. The commercial communications world has gone over to (largely) fiber-optic, extremely broadband carriers for thousands of voice circuits, hundreds of data circuits, and dozens of video-audio circuits on one routing...plus the communications satellite transponder relay services. Note: at present - and for several years - all the available slots in the geosynchronous orbit have been filled by commsats. Note: Much of the underwater cable service has been or will be soon replaced by "pumped" (self-amplifying) fiber- optic cable. Communications such as ARINC stations for relaying HF from air carriers on long routes still exist in the same number. So do the private-boat, commercial boat HF relay services. The availability of HF communications for small stations in commercial work has caused a shift from reliance on the bigger mass-communications carriers to individual company stations. Yes, one can still hear "other" radio signals outside of the ham bands. There still exist the strange hum-roar of 12 KHz commercial SSB here and there on HF but those are far less numerous than they were three to four decades ago. There's lots more 'new' sounds of all the various TORs that "others" use on HF and, once in a while, a rare CW signal. :-) Thousands of old HF stations for non-ham use have been closed down worldwide and equipment dismantled or just junked. Some of the USA transcontinental microwave (FM) long-distance relay system are still in use and up (visible to anyone driving cross-country) but fiber-optics and very high-speed digital time-multiplexed carrier services carry much of the long-distance telephone signals if not relayed via commsats. Such is longer-lived and more reliable. It's difficult for many to reconcile the changes that have happened in communications in just a half century but that's how it went down. On a more consumer-oriented basis, the broadcasting industry is generally wondering what will become of all those old analog TV transmitters after the transition to HDTV in the USA. There's no easy answer for that, either. 73, Len AF6AY |
Professional HF Work?
"BNB Sound" wrote in message oups.com... I've been an amateur operator for a little over a year now and one of my favorite parts of the hobby is soaking up stories from previous decades. One of the things I'm curious about is professional HF work. I've heard it mentioned in passing that when the early trans-Atlantic cables went down they would shift to HF circuits as available to try and pick up the slack. So, what else is out there. I know the military has always been heavily invested in radio gear, but what else was (and is?) there? I'd love to hear from anyone who ever brought home a paycheck for working the airwaves. My great uncle was a professional morse operator originally in the RAF but then as a civilian on weather research aircraft that monitored clouds and weather for weather forecasting. He used to send the reports to the ground via HF. Then he did some time with the civilian search and rescue service manning a base station which was also on HF (coordinating the rescue helicopters and aircraft). |
Professional HF Work?
both the United States eastern missle test range and western missle test
range have modern HF sites that are operated by civilian contracters. Computer Sciences Raytheon operates the eastern test range. Henry |
Professional HF Work?
Sir/Mam,
I have brought home the "paycheck" for just under 30 years.....mostly x-band SatCom. An electrical engineer by profession, I have also been heavily envolved wit HF, meteror burst, line of sight et al. The jjobs are out there....most all are Government...US "and" others....almost all require security clearances. check federal employment registers...."civil service".....etc. ! Henry |
Professional HF Work?
This is all great stuff. I read every page of the stories from the
Coast Guard. Every ham has favorite experiences on the air. Does anyone have any favorite experiences from working on the air? 73, Thanks and keep 'em coming, KC2PNF Jon |
Professional HF Work?
"BNB Sound" wrote in message oups.com... So, what else is out there. I know the military has always been heavily invested in radio gear, but what else was (and is?) there? Jon KC2PNF AT&T High Seas Radiotelephone Service could be used by any ship with high-frequency single side band radiotelephone service. Worldwide in scope, the service provided two-way voice communication between ships on the high seas and telephones on land, at sea or in the air. While I was employed at A.T.&T. I was given a tour of their international operating center in Pittsburg PA in the early 1990's. Being a ham I most enjoyed watching the operators at the High Seas Bureau taking calls from and to ships at sea. Staffed 24-hours a day, 365-days per year, AT&T operators at Pittsburg PA provided mainland telephone connection to ships at sea. In many circumstances, operators handled distress calls. The operations staff was trained for all emergency situations and alerted the Coast Guard of pending crises. AT&T High Seas Radiotelephone Facility - was the only facility of its kind in the world, provided lifesaving, two way voice radio-telephone service communication between ships at sea, or aircraft, and telephones on land, sea, or in the air. WOO was the radio call sign of the now-defunct AT&T High Seas Service. The radiotelephone transmitter station was in Ocean Gate, NJ ( 39°55'38?N, 74°06'55?W) and the receiver station was in Navesink, New Jersey, USA. Before satellite communication systems were widely available, the only way ships at sea had to communicate with the rest of the world was via HF SSB connections to land stations. The AT&T high seas service consisted of WOO Ocean Gate, New Jersey and her sister stations WOM Pennsuco, Florida (Miami, Florida) and KMI Dixon, California (Point Reyes, California). A vessel at sea would make radio contact with one of those stations, and the operator would patch the radio connection though to a telephone call made over the PSTN. The charges were typically settled by making the landline connection a collect call. Larger vessels maintained accounts with AT&T. In the years prior to regular telephone service being available in Mexican towns such as La Paz, Cabo San Lucas and Puerto Vallarta, KMI provided service to certain hotels and resorts in those locations. Sometimes a hotel would register a land based transmitter as a yacht, and give it a fictitious name in order to provide phone service to their customers. AT&T shut down all three stations on November 9, 1999. It is believed that the only remaining commercial sources of high seas high frequency radiotelephone service are WLO in Mobile, Alabama and KLB in Seattle, Washington. AT&T now uses "Mobile Satellite Services". To use the High Seas Radiotelephone Service, each ship's radio officer would select a channel to call one of AT&T's Coast Stations. A technician at the Coast Station will then pass the call to an AT&T operator in Pittsburg PA . The person at sea would tell the operator the number he or she was trying to reach and the call was connected. People on land would call 1-800-Sea-Call and tell the operator in Pittsburg PA the name and callsign of the vessel they wanted to call. Ace - WH2T .. |
Professional HF Work?
"BNB Sound" wrote in message oups.com... I've been an amateur operator for a little over a year now and one of my favorite parts of the hobby is soaking up stories from previous decades. One of the things I'm curious about is professional HF work. I've heard it mentioned in passing that when the early trans-Atlantic cables went down they would shift to HF circuits as available to try and pick up the slack. So, what else is out there. I know the military has always been heavily invested in radio gear, but what else was (and is?) there? I'd love to hear from anyone who ever brought home a paycheck for working the airwaves. I used to run a company in Tanzania that supplied HF radio kit to NGO's Mines, Aid agencies, Safari companies,Farms, Shipping and transportation companies. Not much of a mobile phone network away from the cities. Also we provided a HF email service called Bushmail, similar to Sailmail using Pactor 3 SCS modems for HF email. HF kit that we supplied Kenwood TRC 80/TK88, Icom IC-78/IC-718, also some kit from Codan and Motorola So, yes there is a business market for HF comms kit in Africa. Robin |
Professional HF Work?
On Wed, 9 May 2007 15:23:30 EDT, AF6AY wrote:
On a more consumer-oriented basis, the broadcasting industry is generally wondering what will become of all those old analog TV transmitters after the transition to HDTV in the USA. There's no easy answer for that, either. Do not confuse digital television (DTV) with high definition TV (HDTV) which is a subset of DTV. All TV stations will be required to use DTV but the use of HDTV is optional. As far as the transmitters go, in general they are being junked because most of them are near the end of their useful lives and are held together by duct tape and baling wire in anticipation of the transition. 73 de K2ASP - Phil Kane Life Member - Society of Broadcast Engineers |
Professional HF Work?
On Sat, 12 May 2007 04:47:18 EDT, "Dr.Ace" wrote:
AT&T High Seas Radiotelephone Facility - was the only facility of its kind in the world, provided lifesaving, two way voice radio-telephone service communication between ships at sea, or aircraft, and telephones on land, sea, or in the air. I beg your pardon - most if not all major coast stations throughout the world had that capability. I was involved with the Israeli coast station - 4XO in Haifa (Haifa Radio) - in the mid-60s and I knew that all of the European coast stations had HF SSB voice service available as well. Before satellite communication systems were widely available, the only way ships at sea had to communicate with the rest of the world was via HF SSB connections to land stations. Uh, are we forgetting CW and RTTY (later SITOR) TELEX HF which did not use AT&T's network? Sometimes a hotel would register a land based transmitter as a yacht, and give it a fictitious name in order to provide phone service to their customers. Two brothels in a remote area of Nevada (where such activity was legal) tried that in the late 70s and the VHF Marine carrier who colluded in that lost his license and equipment as a result. -- 73 de K2ASP - Phil Kane From a Clearing in the Silicon Forest Beaverton (Washington County) Oregon e-mail: k2asp [at] arrl [dot] net |
Professional HF Work?
Phil Kane wrote:
On Sat, 12 May 2007 04:47:18 EDT, "Dr.Ace" wrote: snip Sometimes a hotel would register a land based transmitter as a yacht, and give it a fictitious name in order to provide phone service to their customers. Two brothels in a remote area of Nevada (where such activity was legal) tried that in the late 70s and the VHF Marine carrier who colluded in that lost his license and equipment as a result. They yacht to have known better than that.... ;^) - 73 de Mike KB3EIA - |
Professional HF Work?
Phil Kane wrote on Sun, 27 May 2007
23:00:15 EDT: On Wed, 9 May 2007 15:23:30 EDT, AF6AY wrote: On a more consumer-oriented basis, the broadcasting industry is generally wondering what will become of all those old analog TV transmitters after the transition to HDTV in the USA. There's no easy answer for that, either. Do not confuse digital television (DTV) with high definition TV (HDTV) which is a subset of DTV. All TV stations will be required to use DTV but the use of HDTV is optional. I made an "aside" for comparison and haven't confused anything. Firstly, DTV isn't about using HF spectrum...I am very aware of that. The transmitters for television represent a sizeable capital investment by broadcasters. I am aware of the complaints of the broadcast industry (pro and con) during the entire time of the "Grand Alliance" testing that led to the eventual DTV broadcasting format that went into broadcasting regulations. It's been years since I "rode gain" at a control console or "took" a particular camera or tape unit, but I do know something of the MPEG video transport format even though it generally gives me considerable confusion every time I've studied it. :-) The MPEG video transport format can accommodate four different pixel arrangements and DTV receivers are supposed to be built to decode all of them automatically. That video format includes the old-style analog format (converted from analog to digital) on up to the High- Definition TV which is considered by most consumers as "wide screen TV." The DTV transmitters themselves handle the entirety of the video format sent up from the studios,including the quadraphonic sound, text for hearing impaired, and whatever else the studio central control sticks in there. In the old TV transmitter arrangements of any appreciable power, they were almost always TWO, one for video (AM sorta SSB called "vestigal sideband"), one for audio (FM) with a Diplexer (passive filter) to connect both to the same wideband antenna. The DTV transmitter is a single one since ALL of the modulation information is conveyed by it, no "extra" one for sound, seldom any need for an external filter, let alone a diplexer. The internal design of the DTV transmitter HAS to be different than either the AM video or FM aural transmitters by nature of the modulation mode. But, that DTV transmitter can handle ANY of the video transport formats automatically. Whether the TV station central engineering sends old NTSC video converted to "low grade" digital format or has gone all-out to run everything in "high definition" doesn't bother the DTV transmitter. The end result for conversion to DTV was a replacement of the transmitters (old) by one new one. Draconian for the broadcasters but visual and audible pleasure for millions of consumers receiving the DTV. As far as the transmitters go, in general they are being junked because most of them are near the end of their useful lives and are held together by duct tape and baling wire in anticipation of the transition. I disagree with that "junk" figurative phrasing. Here in Los Angeles, there is one central TV (and most FM) broadcast transmitter site, Mount Wilson. It's been a few years since I was up there but all the stations (7 on VHF, 4 on UHF) had good, long-lasting transmitters. At the time KTLA (ch. 5) was beginning to convert to DTV; they were a pioneer broadcaster in L.A. and this year is their 60th anniversary here. Both studio and transmitter sites have excellent equipment and their DTV signal is absolutely HDTV. Their morning show content is, in my view, JUNK, but that is CONTENT, having nothing to do with equipment or signal quality...a personal critique. What used to be a TV "leader" in quality of equipment, NBC (ch. 4) under the 'general's" eye of RCA, hasn't fully converted to HDTV in their studios. NBC evening news is HDTV but local news is still narrow TV. NBC is owned by General Electric and "RCA" exists solely as a brand name now. I think...haven't kept up on the mergers and acquisitions of large corporations lately. :-) TV is above 30 MHz, definitely not in the HF spectrum. However the type and kind of modulation carried by any transmitter will determine whether or not it will be "junked" for a new replacement, NOT it's supposed "held together by tape and bailing wire." If hams could run 4 KW PEP SSB on HF (not in the USA) then the ages-old Western Electric LD-T2 SSB transmitter would be a great surplus bargain for them...Class A stages up to the PA which is AB_2, push-button QSY to any one of 10 pre-tuned frequencies. Problem is, the SSB format is 12 KHz wide and has internal frequency multiplexing for four 3 KHz audio inputs combined for the output SSB modulation. A no-no for amateur radio use, even if well-designed after WW2 by WE. Too much modification required to fit the "tranditional" and technical specs even if a superb design for its intended use. That was the general point I was making, not something about the video format of DTV. 73 de K2ASP - Phil Kane Life Member - Society of Broadcast Engineers 73, Len AF6AY Life Member - Institute of Electrical and Electronic Engineers No pixels were harmed in the generation of this message but billions of electrons were rudely shoved around. |
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