FM radio can be a truly wonderful form of media, if it is handled correctly. To receive and enjoy our quality programs to the fullest, you need to observe what many refer to as the three A's of radio:
If you have all three of these, you could potentially receive an FM station up to 100 miles away! However, many of us have, at best, only one of these items.
For good reception, a radio must have good selectivity (selectivity is a radio's ability to separate weak signals located nearby, on the FM dial, strong stations) and good sensitivity (the ability to receive weak, distant, signals at all!)
Car Radios: You probably already have a radio with these features. This radio is located in your automobile. Car radios are typically engineered to higher standards to provide decent reception in a moving vehicle, in the presence of varying terrain and with a serious nearby source of interference (your engine!). Add to this the necessity that all has to be done while being bounced around on Pacific Northwest roads and better design shows its benefits. You've already, likely, noticed that FM radio reception is usually better in your car than in your house.
Home/Office radios: Most home radios have poor selectivity and sensitivity (some call them "junk" in the radio business). Typical $19.95 radios with analog tuning (as opposed to digital tuning, where the radio station's frequency is displayed in illuminated numbers) will work, but only near a radio station's transmitter. Most clock radios, under kitchen cabinet radios, "boom boxes", crank-up radios, et al just don't work very well, especially when compared to a car radio!
Some Possible Recommendations:
One could find a spare car radio, buy a 12 volt DC power supply, construct a cabinet, and locate some nice external speakers.
Barring that process, there are a few great radios out there… yes, they do cost more than a $19.95 plastic throw-away radio… but they also perform MUCH better. They sound great, and are a quality product. Positive feedback, regarding specific radio receivers will be posted on the page as it becomes available. Some well-researched existing recommendations can be found on-line here.
If you happen to have a component "stereo" system (typically separate amplifier/tuner, with separate speakers) your tuner already might have decent sensitivity and selectivity. If FM reception is still not what it should be, you can try connecting a better antenna (see below) and see how your reception improves!
These two items are actually MORE important than the kind of radio you're using and they are related in a big way. You can get the same reception in a bad location (using a great antenna) as you can in a good location (using a bad antenna)! But why not work on improving both?
General Statement: You MUST have an antenna (of some kind) to receive any signals on a radio!
The Basics of Radio Physics: FM Radio Waves travel more-or-less in straight lines. They are weakened by objects that get between the transmitter and receiver.
The closer you are located to an FM transmitter the better chance you have of receiving a clear signal from Radio of Hope.
The higher up your antenna is located, the better chance you have of receiving a clear signal. In other words, if your radio has a built-in antenna, it will work better in your attic, than in your basement! Or if you have an outdoor antenna, it will perform better on the roof, than on your kid's old swing-set.
If your house is on a hill, you'll get better reception than if it is in a valley.
If there is a large object between your house and the transmitter (like a mountain, for instance) you will probably receive a poor signal!
If your antenna is outside, it will perform better than if it is inside.
Someone once said that you MUST have an antenna to receive any radio reception at all, and they were correct! The least expensive radios ONLY have built-in antennas, with no provision for connecting an external antenna. With better radios, you have a choice.
Built-in antennas: Even the lowliest radio has some sort of antenna… typically built-in, with typically poor performance. Most clock/table radios use the power cord as an antenna. A "walkman" or iPod with an FM radio uses the headphone cord as the antenna! Except in strong signal areas (nearby a transmitter) none of these perform all that well. Signals they receive are usually variable; for example, when you walk around the room, the signal strength will change (usually for the worse!)
We Recommend: If your radio has a built-in antenna, and you are nearly satisfied with its performance, try moving the AC power cord around. It may work slightly better draped over the dresser, instead of lying on the floor.
Wire "dipole" (usually supplied with better radios):
This is a flexible wire antenna that comes packed with some radios, including the few referenced earlier. Using this antenna will improve reception somewhat, but as with ALL antennas, it's not the perfect solution. It is attached to the back of the radio, then "strung up" somewhere in the room as a "T" with the two ends extended as far as possible from each other. This can be the difficult part, because who wants an unsightly wire tacked on the walls of their living room? It is also somewhat directional; in that it will (in theory) pick up radio stations better perpendicular to the horizontal portion of the "T". So if you listen to several stations broadcasting from different directions this might not be ideal. Of course, you might try snaking the antenna out a window and somehow tacking up the "T" portion outside for improved reception. It all depends upon how determined you are to improve your radio reception.
Telescoping antenna(s)/"rabbit ears":
Some "boom boxes" and portable radios have one or two telescoping antenna rods. These perform somewhat better than the wire "dipoles" because you can move the one (or two) rods around for optimal performance. You can buy a pair of "rabbit ears" from Radio Shack for around $10.
Don't bother with indoor antennas that do NOT have a pair of unsightly long rods with them. Circular, ash-tray sized and other types of indoor antennas are meant for UHF television and won't work very well for FM radio.
Amplified indoor antennas:
People frequently ask us about these things and it seems that our best answer is something on the order of "it all depends" . There are several of these available, manufactured by Terk, Audiovox and others… they are dipole or similar antennas, in an "attractive" case with a small pre-amplifier intended to boost the signal before it gets to your radio. Technically there are several things wrong with this approach…. Typically your radio already has a very good pre-amplifier built in to its circuitry. A "dipole" antenna connected to your radio could work just as well as an amplified antenna. The additional pre-amplification sometimes causes increased noise in the reception, especially if there are strong FM stations in the neighborhood and you're trying to receive a weak one!
If you can somehow manage an outdoor antenna, this is the way to go! Apartment dwellers, renters, cave-dwellers, submarine operators, we’re sorry, as we know you may not be permitted to install an outdoor antenna.The best thing for the rest of us to do is to use (or re-purpose) a TV antenna, originally designed to receive TV channels 2-13, that is already on your roof. If you still use it to receive off-air TV, then get an inexpensive TV-FM splitter. Or if you've switched to cable-TV or satellite-TV, then just connect your old TV connection to your FM radio. You'll be surprised at how well this works! The main reason is that TV channel 6 is immediately adjacent to the bottom of the FM broadcast band and will boost those FM channels as well.
If you want to install a new outdoor FM antenna, there are a few types to choose from, "omni-directional" and "directional". An “omni”, will receive FM signals from all directions, like the Winegard HD-6010 ($32) or Stellar Labs 30-2435 ($17). These are decent choices if you like to station-hop.
If you mostly listen to only one station or most of the stations you listen to are located in (more or less) the same direction (or you could use an antenna "rotator") then you need a directional antenna. One possibility is the Stellar Labs Yagi ($38). Installing an outdoor antenna can be fun, challenging, or both! Here's how: The easiest way to do this is to have someone else do the installation.
Hit the Yellow Pages or ask around. To do it yourself, "somehow" mount your new FM antenna on a metal pipe. Antenna masts typically come in 5 and 10 foot lengths. Secure the pipe to the roof or side of your house remembering the higher the better! You can get tripod roof mounts and wall mounts from Home Depot as well as antenna mast. Every step of the way, please be careful!If it's a directional antenna, aim it towards the station of your choice. In this case it’s better to wait until the antenna is connected to the radio, then manually rotate the antenna for best reception and lock it down. Or you can purchase an antenna rotator, as well as sufficient cable to connect it to the rotator control unit, which will be inside your house somewhere.
Then you need to somehow get the signal from your antenna down to your radio. In the "old" days, a flat cable about ½" wide called "twin-lead" was all that was available. Now everybody uses round coaxial cable. Your new antenna will probably have two screw terminals on it, so you'll need a coaxial "balun" or matching transformer to connect to this type of antenna. The matching transformer will have an "F" connector on the end away from the antenna. You can purchase coaxial cable with mating "F" connectors already installed, or purchase a special crimp tool and install your own "F" connectors on coaxial cable you purchase separately. Route the coaxial cable to the radio. Newer radios will also have an "F" connector on them and a switch, labeled something like "internal" and "external". Connect the new cable from your new antenna to your radio, switch to "external" and hear more FM stations than you've ever heard before!
Wait! We didn't mention interference! However, it is a reality, so we should at least discuss its existence.
The 21st century is FULL of radiofrequency signals, some of which will conflict with each other. Here is a few examples of types of interference we've heard about.
iPod, Satellite Radio, FM Modulator interference:
This has been a BIG problem for FM radio reception. These devices are designed to let you listen to their audio through your FM radio… they have a small FM transmitter which is designed to broadcast over a very limited range on an un-used FM frequency.
In theory, this sounds perfectly acceptable, however several things can go wrong: Some of these units weren't designed properly and they broadcast over a MUCH wider electronic area than they should. Some of these devices come pre-set to broadcast on 88.1…. unless they are re-set, they will cause interference to actual FM stations on 88.1. Also, if improperly installed, some of these devices can cause tremendous areas of interference!
What to do?
The FCC has been requiring much more stringent testing of these devices… hopefully (eventually) the older non-compliant devices will be replaced. Or if you happen to repeatedly see the same vehicle producing the same interference to your radio, you might ask the owner to switch the output frequency of his device. Or if it is you that is causing the interference please be considerate of others and make necessary changes.
Interference from other stations:
Typically this can be cured through the use of a radio with better selectivity. If you hear another station while trying to listen to your favorite signal, try listening on another radio (a car radio, for example) . If the situation improves, you probably do need a better radio. Another option is to use a directional antenna, and/or try to re-orient whatever antenna your radio uses. If you can (somehow) increase the amount of signal while decreasing the offending signal then your radio will be able to separate the two stations better.
Sometimes the same FM signal can be received by your radio's antenna from several different directions, arriving at slightly different times! For example, if there is a nearby reflective surface (like a cliff face) the signal might arrive at your antenna directly from the FM transmitter, then a fraction of a second later after it has "bounced" off the rock cliff face. The radio becomes "confused" and noisy, harsh reception can occur. To cure this, try to either use a directional antenna, or try to re-orient your antenna to maximize your reception of the primary signal.
Other sources of interference:
There are plenty of other sources of interference possible, computers, TV's, fluorescent lights, electric fences and more. Try to determine which of these sources is causing the problem and isolate it, and/or try to improve the FM signal getting to your radio. Get a better antenna or try a better location for it.
While not an exhaustive listing, our desire is that these hints and tips will assist you in resolving your reception difficulties so that you can occupy your mind on more worthwhile pursuits like developing a relationship with the Creator/Redeemer of the Universe!