JimmyJames said:
I'm confused when and where the "right" was created for people to be able to listen to fringe signals. If the market isn't the market it was licensed to serve, I fail to see how someone outside that area has some sort of "right" to interference free reception of a non local station, caused by HD or not.
First of all, the average listener doesn't know the definition of a "fringe" signal. They could care less where their favorite stations' transmitter site is. If 94.5 is a button on a car radio and he/she listens to it and enjoys it, that's all they care about. Without interference, today's car radios achieve full quieting at the 40 dbu contour of an FM signal. The 1960's definition of a "fringe" area has been outpaced by low-noise front ends and ceramic filter IF's.
The 2nd problem is the means by which HD was allocated, using a fixed ratio of DB down from the main carrier. Consider the situation of two 1st adjacent FM stations. Not short spaced, but both allocated with similar coverage areas. Station one has a very high HAAT and a low transmitter power. Station two has a lower HAAT and a high transmitter power. In the analog world the station with the higher HAAT has a solid signal everywhere but a very strong signal nowhere. The station with the higher power has a very strong signal close to the transmitter site, but will typically suffer from multipath and/or the signal diminishes faster with distance. Still, the protected contours are similar.
Now add HD. Station one is still limited to -20 dbc power, maybe -14. This isn't nearly enough power to activate the HD decoder on today's radios. Even in a perfect world the thermal noise is way below the level of the digital signal. But add in self-generated noise from an HD processor along with the analog carrier of the more powerful 1st adjacent, and HD is useless. Meanwhile, station two turns on HD. His HD power is only a few DB down from the analog power of station 1. Station one becomes unlistenable in a large area, and if there are terrain issues this can easily happen within a station's FCC protected contour. The problem is that HD interference sounds just like white noise to the untrained ear, so the general public is unaware that this is why they can no longer receive their favorite station. Meanwhile, station two has way more digital power than is necessary to cover their protected contour digitally. You notice that the big complaints of dropouts are from areas of high HAAT and transmitters of 6 KW or so. Not from the 50-KW operators. HD allocations should either be specifically calculated for digital power instead of the blanket ratio, or the power derating curve for HAAT should be changed to accommodate the additional interference.
I'm probably not so good at explaining the above phenomenon, but the reality is that many stations are suffering real financial damage because of HD - especially Non-comms that rely on listener donations.
I also know of many people who have just quit listening to radio because the stations they enjoy aren't receivable any more. They don't understand why, but it's just static. It wouldn't be so bad if there was some benefit.
But I own 5 HD radios and all of them sound like mediocre-quality webcasts. I've given up buying more, because I'm convinced that's the way the system sounds.
A good FM signal (not one that's heavily processed) sounds way better. Plus, the programming on the HD-2 channels isn't as good as the signals we lost (opinion, for sure - but I don't see any HD-2's showing up in the ratings). So what's the point? I'm sorry, but I don't see what the advantage of HD is.
Dave B.
