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Every 50 KW Clear Channel In The USA With A Difference
Wasn't this supposed to be the idea behind the high-powered stations?
National full-service coverage? I believe each city should be limited to maximum six or eight MW stations. Two high powered 50 kilowatt stations, the rest would be 10,000 or lower local/regional channels. In addition, the LW band and the "Tropical" part of the SW band should be pressed into service for one or two 500,000 watt national coverage broadcasters - government sponsored (NPR?) Want specialist programming? That's what FM is for. -- Stephanie Weil New York City, NY |
Every 50 KW Clear Channel In The USA With A Difference
"Stephanie Weil" wrote in message oups.com... Wasn't this supposed to be the idea behind the high-powered stations? National full-service coverage? Theat was the idea, back in the 30's. Of course, that was pre-TV. Then, the bulk of radio listening was in the home at night. Today, the bulk of listening is in the car or at work (two thirds of all listening) and in the daytime. Night listening is one third of daytime levels (7 to midnight) and AM night listening is very limited. I believe each city should be limited to maximum six or eight MW stations. The model in the US has always been based on whatever would work tecnically. Unfortunately, between a half and two-thirds of metro area AMs are inadequate to cover the market they serve, as they were either designed in the 30's or 40's before urban sprawl, or they are daytimers or showehorned in directional monsters. There are some markets, like Washington, DC, that do not have a single full market coverage AM. Two high powered 50 kilowatt stations, the rest would be 10,000 or lower local/regional channels. In many markets, 10 kw is not enough to cover the market without being trashed by manmade noise. Also, the relationship has to considder that low band AMs cover much better than high band... a 5 kw on 550 outcovers vastly a 50 kw on 1500. In addition, the LW band and the "Tropical" part of the SW band should be pressed into service for one or two 500,000 watt national coverage broadcasters - government sponsored (NPR?) Nobody would put up with the fading and static and interference on a national Am today. This is not the 30's. And younger, under 35 listeners, have no use fo rhte sound quality of the AM band. |
Every 50 KW Clear Channel In The USA With A Difference
In article ,
"David Eduardo" wrote: Snip In many markets, 10 kw is not enough to cover the market without being trashed by manmade noise. Also, the relationship has to considder that low band AMs cover much better than high band... a 5 kw on 550 outcovers vastly a 50 kw on 1500. Snip You are referring to daytime reception only? Considering daytime ground wave propagation, is the difference in coverage low to high band due to ground conductivity where the high end of the band has more loss per mile? -- Telamon Ventura, California |
Every 50 KW Clear Channel In The USA With A Difference
"Telamon" wrote in message ... In article , "David Eduardo" wrote: Snip In many markets, 10 kw is not enough to cover the market without being trashed by manmade noise. Also, the relationship has to considder that low band AMs cover much better than high band... a 5 kw on 550 outcovers vastly a 50 kw on 1500. Snip You are referring to daytime reception only? Yes. In the US, there are so few stations that have any extended night coverage as to make the point moot for all but maybe 30 or 40 stations in the whole nation that can get usable skywave coverage. In any event, night AM listening is so low that it is irrelevanat, irrespective of coverage. Considering daytime ground wave propagation, is the difference in coverage low to high band due to ground conductivity where the high end of the band has more loss per mile? Given the same transmitter site, and same radiation efficiency, the difference is that medium wave signals propagate better watt for watt on the lower frequencies. Ground conductivity decreases as a function of frequency. This is why the old adage that 1 kw on 1540 covers better than 50 kw on 1600 is nearly true. |
Every 50 KW Clear Channel In The USA With A Difference
David Eduardo wrote: "Telamon" wrote in message ... In article , "David Eduardo" wrote: Snip In many markets, 10 kw is not enough to cover the market without being trashed by manmade noise. Also, the relationship has to considder that low band AMs cover much better than high band... a 5 kw on 550 outcovers vastly a 50 kw on 1500. Snip You are referring to daytime reception only? Yes. In the US, there are so few stations that have any extended night coverage as to make the point moot for all but maybe 30 or 40 stations in the whole nation that can get usable skywave coverage. In any event, night AM listening is so low that it is irrelevanat, irrespective of coverage. Considering daytime ground wave propagation, is the difference in coverage low to high band due to ground conductivity where the high end of the band has more loss per mile? Given the same transmitter site, and same radiation efficiency, the difference is that medium wave signals propagate better watt for watt on the lower frequencies. Ground conductivity decreases as a function of frequency. This is why the old adage that 1 kw on 1540 covers better than 50 kw on 1600 is nearly true. I assume you meant 540, not 1540. I think it would be cool to have long wave (LW) broadcasters in the USA. Ten 2 megawatt stations, on 10 frequencies, evenly spaced across the country would cover the entire lower 48 day and night. It won't happen, of course, because nobody owns radios that cover LW besides radio nerds like us. |
Every 50 KW Clear Channel In The USA With A Difference
"Somebody Somewhere" wrote in message ups.com... David Eduardo wrote: "Telamon" wrote in message ... In article , "David Eduardo" wrote: Snip In many markets, 10 kw is not enough to cover the market without being trashed by manmade noise. Also, the relationship has to considder that low band AMs cover much better than high band... a 5 kw on 550 outcovers vastly a 50 kw on 1500. Snip You are referring to daytime reception only? Yes. In the US, there are so few stations that have any extended night coverage as to make the point moot for all but maybe 30 or 40 stations in the whole nation that can get usable skywave coverage. In any event, night AM listening is so low that it is irrelevanat, irrespective of coverage. Considering daytime ground wave propagation, is the difference in coverage low to high band due to ground conductivity where the high end of the band has more loss per mile? Given the same transmitter site, and same radiation efficiency, the difference is that medium wave signals propagate better watt for watt on the lower frequencies. Ground conductivity decreases as a function of frequency. This is why the old adage that 1 kw on 1540 covers better than 50 kw on 1600 is nearly true. I assume you meant 540, not 1540. Yep. thanks for spotting this. I think it would be cool to have long wave (LW) broadcasters in the USA. Ten 2 megawatt stations, on 10 frequencies, evenly spaced across the country would cover the entire lower 48 day and night. It won't happen, of course, because nobody owns radios that cover LW besides radio nerds like us. Unfortunately, nobody but the over 40 crowd will put up with AM quality, and it would be a losing proposition from the start. |
Every 50 KW Clear Channel In The USA With A Difference
SW,
"In addition, the LW band and the "Tropical" part of the SW band should be pressed into service for one or two 500,000 watt national coverage broadcasters - government sponsored (NPR?) " i like that idea ~ RHF |
Every 50 KW Clear Channel In The USA With A Difference
SbSw,
"I think it would be cool to have long wave (LW) broadcasters in the USA. Ten 2 megawatt stations, on 10 frequencies, evenly spaced across the country would cover the entire lower 48 day and night." i like that idea ~ RHF |
Every 50 KW Clear Channel In The USA With A Difference
"David" wrote in message ... On 18 May 2006 09:16:29 -0700, "RHF" wrote: SbSw, "I think it would be cool to have long wave (LW) broadcasters in the USA. Ten 2 megawatt stations, on 10 frequencies, evenly spaced across the country would cover the entire lower 48 day and night." i like that idea ~ RHF . That's absurd. A satellite covers the whole country and uses way less energy. Yes, and a satellite also requires a directional antenna and special receiver (and a subscription). Putting LW into standard radios would cost almost nothing, and add little to the cost of a portable radio. |
Every 50 KW Clear Channel In The USA With A Difference
In article ,
"Brenda Ann" wrote: "David" wrote in message ... On 18 May 2006 09:16:29 -0700, "RHF" wrote: SbSw, "I think it would be cool to have long wave (LW) broadcasters in the USA. Ten 2 megawatt stations, on 10 frequencies, evenly spaced across the country would cover the entire lower 48 day and night." i like that idea ~ RHF . That's absurd. A satellite covers the whole country and uses way less energy. Yes, and a satellite also requires a directional antenna and special receiver (and a subscription). Putting LW into standard radios would cost almost nothing, and add little to the cost of a portable radio. How much energy did it take to put the satellite into orbit? How much power is used in the uplink effort? -- Telamon Ventura, California |
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