The original V series Nautel transmitters have required a couple of firmware upgrades in some cases.
Upgrading the PA module firmware on Nautel V-5D transmitter, WDVT, Rutland, VT
The first was for the controller to add a little bit of bias to the PAs during analog operation. The second one I have had to do is to the PA modules themselves which was to keep the power supplies from shutting off during re-transfer from Generator power to commercial power.
I have done several of these and once you get the hang of it, it only takes a few minutes to complete. Still, I remember when transmitters didn’t have firmware. The low voltage control circuits were either 120 or 240 VAC with big relays and contactors that loudly confirmed their closure before any meters began to move.
Regarding Nautel transmitters in general; the newer models are not same rugged, reliable designs that were common in the past. We have AM ND series transmitters that have been on the air for 20 years without a single failure. The models rolling out of the factory these days often have switching power supplies fail without reason or warning and RF pallets that are fragile things. Ah well, I suppose all things are cyclical.
The USSR government at the time spent “hundreds of millions of rubles” on this covert operation destined to create utter chaos… We even infiltrated mainstream radios to promote their music and reach millions of people everyday…
As far as I am concerned; The Sex Pistols, meh. However, The Clash was pretty good and when I was living in California in the mid 1980’s, The Ramones were hugely popular with the surfer crowd and pretty much everyone else.
So, without further adieu and with special thanks to Комите́т госуда́рственной безопа́сности (КГБ):
There you have it; an English punk rock band, financed by a Soviet security apparatus signing (sort of) about an American car. Next thing you’ll tell me is that Billy Joel is a CIA front.
Pictures of a backup power systems replacement evolution at one of our clients. The old generator was a Katolight 45FGH4, circa 1990. The new generator is a Cummins Power GGHE-1503557 60 KW 3 phase. Unfortunately, when the Katolight generator was moved from the previous studio location in 1998, it was never installed correctly. The 500 gallon propane tank was undersized, the gas tubing was undersized, etc. We fixed those items, but the damage was done. After running too lean under load a few times, the head gasket blew and there is oil in the antifreeze and antifreeze in the oil. It is a Ford straight six engine, and sure, we could rebuild it, but why bother. This is a major group of stations in a very lucrative market, it makes much more sense to replace the entire unit.
Katolight Genset hooked up to the crane, ready to move
In addition to the head gasket problem, the load on the generator has increased. Since the old generator was installed in 1998, two more stations have been added to this facility. That means another air studio, another production studio, more computers, servers, air conditioning etc. Thus, the new generator is rated for 60 KW.
Cummins Power Generator delivery
Cummins generator lift
After the GENSET is placed, connections for remote start, battery charger, block heater and AC power output are made. We were able to reuse the existing conduit and cable, thankfully the electricians used 3/0 AWG cable for the AC power connections to the transfer switch.
Cummins Power generator in place
It appears that they have dropped the Onan name, but not the color, completely.
Whilst working in the generator room at WFLY, I found this bit of treasure stashed on an overhead shelf:
General Electric BY-4-C FM circular broadcast antenna, ca 1948
That is a very old FM broadcast antenna from 1947-48. It must have been intended as a spare antenna in case the main antenna had a problem. It was never needed, so it remains in its original shipping crate. I would think that these were rather well made, since the original main antenna was in service from 1948 until 1970 or so, when it was replaced with a Shively 6710.
General Electric BY-4-C antenna element
The entire antenna is intact including the interbay lines, power divider T’s and tuning section. Of course, it is of little use to the radio station today, as it is horizontally polarized. Perhaps some museum somewhere? I don’t know, it would be kind of neat to put it all together and use it as an exhibit.
Norway will switch off its national FM networks in 2017, according to the Ministry of Culture announcement. In the place of analog FM will be DAB. The aim is to have the migration to DAB completed by December of 2017. According to the article, approximately 54 percent of households and 20 percent of automobiles have DAB radios. What is left unsaid is the 46 percent of households and 80 percent of automobiles that do not have DAB capable receivers.
I am sure that in the ensuing year and a half to two years, those numbers will change somewhat. It still seems to me that there will be many people who will likely not have a DAB radio in their car before the analog switch off.
Judging by the comments on the Slash dot story, many are not happy with this decision. Perhaps the most telling comment is this:
This is just Norway going off on its own crusade urged on by commercial interests of 10+ new channels, fuck whether it makes sense to throw out millions of radios… I expect this to lead to a massive interest in building out 3G/4G coverage as ex-FMers give DAB the middle finger.
Yup, that sounds about right.
I don’t know much about radio in Norway, but it if is anything like radio here, good programming trumps technical do-dads and and fancy gimmickry.
Update and bump: I hate to rehash old stuff, but I added quite a bit of information to this post, including .pdfs of all the Barbeau letters, blue prints, etc. I’ve been doing quite a bit of work at this site lately, so it is in the front of my mind. I have also been reading about the Rural Radio Network, which covered western and central New York.
WFLY transmitter site, August 1949
Several years ago, I rescued a old filing cabinet that was being trashed. This particular file cabinet was moved to a transmitter site during the great radio consolidation of the late 90’s and early 00’s. In it, I discovered a treasure trove of early documents about two radio stations from the Albany NY area. I thought it would be interesting to document the building of one of the early FM stations in Albany, WFLY.
Albany is the capital of New York. There were several early (prior to 1940) AM radio stations in the Albany area:
WGY previously owned by General Electric in Schenectady, signed on in 1922
General Electric, who worked closely with RCA in radio development and experimentation, was working on TV in 1928 and FM radio in 1938/39. There were also several early (prior to 1950) FM stations in the area:
GE owned W2XOY on 48.5 MHz (circa 1939), later W85A, WGFM, and WRVE 99.5 MHz.
Independently owned W47A on 44.7 MHz (circa 1940), later WBCA 101.1 MHz, now gone.
WTRY owned WTRI-FM on 102.7 MHz (circa 1947), off air by 1954. 102.7 frequency later used by WEQX in Manchester, VT
These stations operated from transmitter sites in the Helderberg escarpment on land that was formerly owned by the Albany Bible Institute. It is interesting to note that two of the four FM stations did not make it past 1955. In 1967, WTRY did make a second attempt at FM, launching WDKC on 106.5 MHz, which is today known as WPYX.
It would appear the Troy Record initially applied for an FM broadcasting license in late 1946. The paper trail that I have starts in early 1947, when the station hired consulting engineer Ernest Barbeau of Schenectady to oversee the construction process for the studios and transmitter site. Ernest Barbeau, in an introductory letter to Frank York, publisher of the Troy Record, notes himself as a former GE engineer and assistant to W.R.G. Baker, General Electric’s television pioneer. At the time, it was already understood the height means almost everything in FM broadcasting. There are several letters dealing with land acquisition and transmitter building construction.
Below is a chart of all the various Barbeau letters written in 1947. I have scanned and uploaded .pdf files of each letter, sorted by date (the entire archive is available here (6.5 Mb .zip)):
This is a treasure trove of information on how this, and perhaps other early FM and TV stations went about finding land and building remote transmitter sites. Remember that before this, AM transmitters could be placed in any convenient location with enough space for the tower and ground system. The line of sight nature of VHF required high locations, which in the Northeastern US, means prominent hills or mountains. Sadly, this paper trail goes away in 1948.
Here are some of the highlights found in the letters above:
Washington DC consulting engineer for the project is John Barrons, who at one point suggests a different transmitter location closer to the city of Troy. Barbeau insists that the Helderberg location is best because the GE engineers chose it for their FM and TV experiments.
Negotiations with several land owners along the edge of the Helderberg escarpment are finally successful, with a 10 acre parcel of land purchased from Mr. La Grange, noted as being across Camp Pinnacle Road to the south of the WBCA transmitter and adjacent to the west of the GE parcel, cost $2,000. From this, I surmise the former W47A/WBCA site stood above the WPYX site at the old “wireless cable TV” (MMDS) site.
Land survey completed by Mr. J. Kempf of Albany.
The FCC application is completed with new transmitter location, antenna height and frequency of 92.5 MHz.
At one point, Barbeau tried to hire Walter Watson, an RPI architecture student, to draw up the studio floor plan, paying him $15.00. At first Watson agrees, then backs out of the deal. Frank York hires an architect to draw the studio floor plan and the transmitter site building plan.
Once the plot of land for the transmitter site is purchased, several different building locations and antenna configurations are discussed. It is noted that both WBCA’s and WGFM’s original antenna was mounted on a pole at ground level. The later station was moved to a makeshift tower.
WBCA management raises concern with the FCC about potential interference from the new station’s transmitter and potential STL, noted as an S-T link.
In September of 1947, Frank York expresses some concern with viability of project, Barbeau sends several “pep talk” letters saying that FM radio is the future of broadcasting.
The building site is chosen, land cleared, access road installed, work done by Orsini Brothers Construction from Altamont, clearing and road work cost $2,000.
The call letters WFLY are chosen, they are the initials of Frank Lloyd York.
An 80 foot Blaw-Knox self supporting tower is purchased and installed by Zane Construction, cost of tower is $1,700 installation was another $200.00.
Well is drilled by Stewart Brothers well drilling from Guilderland, cost of $5.90 per foot drilled, total cost unknown.
Transmitter building work began, building is noted as a two story, concrete block construction, work done by Orsini Brothers.
A GE BY-4-C four bay circularly horizontally polarized antenna and 3 1/2 inch Andrew transmission line is installed on tower.
Building construction progresses, telephone and electric service installed. Three phase electrical service cost $2,100 from New York Power and Light.
Studio site chosen in at the Troy Hotel in downtown Troy.
Living quarters constructed on second floor of building for full time transmitter engineer.
A GE BF-3A 3 KW FM transmitter purchased and shipped.
Building construction completed.
Transmitter installed and tested.
Telephone circuits between new studio installed and tested.
WFLY transmitter site building elevations
WFLY transmitter building floor plan
WFLY electrical drawing showing grounding and tower
The transmitter site construction was finished in the spring of 1948. The studios were completed in late July of 1948 and the station signed on the air on August 18, 1948. This is the transmitter site that they ended up with. as it looks in 2015:
WFLY transmitter building, New Scotland, NY
In addition to the construction, there was quite a bit difficulty from the WBCA management, who were concerned about possible interference. WBCA was part of the “Continental Network” and received most of it’s network programing via direct over the air relay from W2XMN/W31NY, 43.1 MHz, in Alpine, NJ. They complained to the FCC about potential interference on both their over air network relay (43.1 MHz) and the Studio to Transmitter Link from downtown Schenectady on 950 MHz. In the end, the FCC was unimpressed with these arguments and granted WFLY its operating license.
The transmitter building was made twice as large as needed because the Record had plans to launch a TV station and possibly a radio facsimile service. In addition to this, there were complete living quarters on the second floor which included a bathroom, shower, kitchen, bedroom and large living room area. This was in the era before remote controlling of transmitters was permitted by the FCC. It took a hardy soul to live at the remote transmitter site full time. Even today, it is far outside of town and can be difficult to get to in the winter time
These mountain top transmitter sites did not exist prior to the advent of TV and FM. The amount of planing and work went into launching this station is quite impressive. For the early FM radio stations, this type of effort and expense was probably typical.
It seems the power company has some work to do. The other leg measures 28 volts to ground, which to me means the Neutral has been lost somewhere. Fortunately, the transmitter was running on 240, which looks normal on the voltmeter. Everything in the rack; the remote control, exciter, STL, etc has been damaged or destroyed.
Then of course, there is this:
That is the power and phone line in those trees, as it leaves the road and travels approximately 1,700 feet through the woods. It is a private line and the utility will not do any work until the trees are cleared away. In all fairness to the current owners, who have owned the station for not quite a year, this situation has been like this for a long time.
So, I spent wasted several hours on this SDR website over the holiday weekend:
University of Twente SDR website
This is a web based SDR hosted by the University of Twente in Enschede, Netherlands. I enjoyed listening to the European medium wave and shortwave stations available. Something that is always fun to checkout: UVB-76 on 4625 KHz.
PS: A special thanks to all those who have donated to the cause via the donate button on the upper right side bar. I had enough money to buy a FUNcube dongle SDR. I think I have all the other necessary hardware to launch one of these sites myself. If or when that happens, I will post a link here.
In an interesting development, the FCC has taken notice of some pattern distortion from the side mounted FM antenna of KFWR, Jacksboro, Texas. For those, like myself, not familiar with Texas Radio, that is in the Dallas/Fort Worth market. The crux of the issue is co-channel interference to KCKL in Malakoff, Texas. These two locations meet the spacing requirements in 73.207 (215 km). The issue is with the side mounted ERI antenna and what appears to be intentional pattern optimization.
From the FCC order to show cause:
ERI’s president, Mr. Thomas Silliman, acknowledging that KFWR’s antenna “was mounted in a favorable direction, but… has not been directionalized and therefore is legal.” Mr. Silliman adds that the custom lambda tower at the top of the new KFWR tower was specifically designed for operation at KFWR’s frequency of 95.9 MHz, and that the tower’s lattice structure is “repetitive at the half wave of the specified FM frequency.” Thus, “if one picks a favorable mounting position on the tower, every element in the array sees the same favorable mounting result. Mr. Silliman also states that vertical parasitic elements are used to make the vertical radiation pattern “more circular” and reduce the vertically polarized gain to the east. In a subsequent pleading, ERI elaborates that its computed values “are relative to an RMS measured field of 1.0.” Mr. Silliman concedes that the mounting of the antenna on a certain tower face constitutes “pattern optimization,”arguing later that this is a common practice used by all antenna manufacturers, but states that it is the ERI’s policy “not [to] increase the directivity of the antenna pattern.”
The FCC concludes that the directionality of the side mounted antenna, in this case, is clearly intentional. The radiated power towards co-channel KCKL was calculated to be 274.5 KW, which is in excess of the 100 KW limit and orders KFWR to reduced TPO from 25 KW to 9.1 KW.
We have lots of these out in the field:
Side-mounted Shively 6810 antenna. WSPK, Mount Beacon, NY
In fact, I believe the majority of our FM stations use side mounted antennas. Some of them are mounted to a leg and some are mounted to a face. Usually, I try to place the antenna on the tower so that the bays are facing the desired audience. This information is given to the manufacture when ordering the antenna so that proper mounts can be furnished and the mounting distance between the tower and antenna properly calculated. That is about the extent of any “optimization” that is allowed.
As the FM band gets jam packed with FM signals, this may become more of an issue in the future, particularly around dense signal areas around major metropolitan areas.
It does not look like much, however, that is about $5,500.00 worth of damage. What you don’t see is the mashed oil cooler and radiator. This happened on my way from one place to another during the early morning hours. I was traveling at about 55 MPH when a deer bolted from the woods and entered the roadway from the right. I did not have time to break.
In a ditch
A momentary lapse of attention causes loss of $80.00. I think I was adjusting the defroster as I was driving down the road when suddenly, I felt the car tilt over to an alarming degree. You can see the tow truck getting ready to pull it out. Fortunately, there was no damage to the vehicle.
Troubles with the neighbor
This is on the access road to one of our transmitter sites. The station has a legal right of way through this property, however, the neighbor seems to object. I spoke with him and showed him a copy of our deed, he has since changed plans.
One side of a balanced audio connection disconnected
This is the downside of using category cable to make audio connections. The wires are not as rugged as say Belden 8451. This was causing problems because it is at an AM studio/transmitter site.
Burned 30 amp three phase contactor
Three phase, 30 amp, 240 volt contactor installed in a 480 volt system. Lasted a few years, anyway.
White face hornets nest
New tenants on one of our towers. This is a white faced (or bald faced) hornets nest. They are really paper wasps, but that difference aside, these beasts are nasty, aggressive and have a painful sting. Normally, I am a live and let live kind of person, but in this case, they gotta go.
Dummy load attached to plywood
This is at one of our AM clients site. Somebody, quite some time ago it seems, made this test load for a 1 KW AM transmitter. It is very nice, carbon ceramic resistors, 50 ohms and surprisingly little reactance. Then they attached it to this piece of plywood. As one can surmise, the load gets quite hot under full power, full modulation conditions. We remounted this in a cage type enclosure and bolted it to the cinder block wall.
Scala PR-950U cross polarized
The client at this station is complaining of intermittent STL drop outs and low signal strength at the receive end. Found this Scala PR-950U antenna mounted for vertical polarization, but the antenna element is horizontally mounted. We’ll call it “vorizontal.”
Ribbon cable from a Cummins 135 KW generator
This was discovered during routine maintenance and thankfully not during a power outage. Mice got into the control box of a newish Cummins 135 KW generator and chewed through what looks like a data buss cable. The generator would not run and the cable and control board needed to be replaced.
There is more bulging capacitors removed from flat panels monitors.
A pessimist sees the glass as half empty. An optimist sees the glass as half full. The engineer sees the glass as twice the size it needs to be.
Congress shall make no law respecting an establishment of religion, or prohibiting the free exercise thereof; or abridging the freedom of speech, or of the press; or the right of the people peaceably to assemble, and to petition the Government for a redress of grievances.
~1st amendment to the United States Constitution
Those who would give up essential liberty to purchase a little temporary safety, deserve neither Liberty nor Safety.
The individual has always had to struggle to keep from being overwhelmed by the tribe. To be your own man is hard business. If you try it, you will be lonely often, and sometimes frightened. But no price is too high to pay for the privilege of owning yourself.
Everyone has the right to freedom of opinion and expression; this right includes the freedom to hold opinions without interference and to seek, receive and impart information and ideas through any media and regardless of frontiers
~Universal Declaration Of Human Rights, Article 19
...radio was discovered, and not invented, and that these frequencies and principles were always in existence long before man was aware of them. Therefore, no one owns them. They are there as free as sunlight, which is a higher frequency form of the same energy.