For those of you interested in insuring your speakers are wired correctly and that they can reproduce certain tones you may download a Speaker Tester from
http://hdqtrz.com/Files/SpeakerTester.zip
Please make sure you read the "readme" file first for each of the tones. Information below is included in the zip file in .txt format along with the .wav files.
# 250 Hz Sine wave test tone - This test tone is a sine wave which has no harmonic content. It should sound like it comes from the center of the monitor if your balance control is set correctly. The frequency or pitch is close to middle "C" on the piano, actually a little flat, and it should sound clean. If you hear buzzing or other sounds besides a single tone make sure that your mixer and all volume controls are set correctly.
# 500 Hz Left Sine wave test tone - This test tone is one octave higher or twice as high as the above test. Again it should sound clean and pure with absolutely no distortion or buzzing. It should only appear to come from the LEFT speaker and nothing should come from the right speaker. IF the sound comes from the right speaker then your speakers are attached incorrectly and the cables should be moved at your amplifier. Move the wire from the left speaker to the opposite speaker output plug or connector on your amplifier and move the wire from the right speaker to the remaining plug on your amplifier.
# 500 Hz Right Sine wave test tone - As above, this test tone should appear to come from the Right speaker and nothing should come from the left speaker.
# Pink Noise Monaural - Pink noise is a form of noise that theoretically contains all frequencies. It should sound somewhat like rain on a rooftop. Pink noise is defined as having equal energy per octave and it is an important signal for loudspeaker testing if you have speaker measurement equipment. In this example, if your speakers are in phase, the sound should appear to come from the middle of the monitor.
# Pink Noise with Reversed Polarity - This is the same sound as above, but recorded with its polarity reversed. Here the sound should appear to come from the left and right speakers individually, or beyond the outside boundaries of the speakers. If it sounds like this noise is coming from the center of your monitor then your speakers are wired incorrectly. To correct this problem you will need to switch the positive and negative wires at there terminals on ONE speaker only and it does not matter which one you change.
# 30 Hz Tone - This is a very low frequency tone. The majority of multimedia speakers will not play this frequency. Although this is not the lowest frequency found in music or multimedia it is a stringent test for a multimedia woofer. If you turn up the volume on this test , you might hear distortion before you hear the test signal. If your multimedia speaker can play this then you are in the big leagues.
# 50 Hz Tone - This is also a very low frequency test tone. If your system will not play the 30 Hz tone above it might reproduce this tone that is a little higher in frequency. The same rules apply as above. A good multimedia system should reproduce this signal cleanly and without any distortion or buzzing. This tone is also a little easier for the human ear to detect and recognize as sound.
# 100 Hz Tone - This tone can serve two purposes. First if your multimedia speaker has very limited low frequency response and it failed to play the lower frequency test tones above, then try this one. Second, if you are using more than one multimedia system in a surround sound application, or a subwoofer with a multimedia system, then you want both systems to be in phase with each other. You want all of the speakers to move in the same direction at the same time. If you switch the phase of one speaker system while playing this tone, the loudness of the tone will change. When the two systems are out of phase, you will hear much less sound output at this frequency and when the two systems are in phase this tone will be loud. (Changing the phase means reversing the wires of one set of speakers, left and right, relative to the other. You can do this at the amplifier output terminals, or at the speaker input terminals by connecting the positive wire of the amplifier to the negative wire of the speaker teminal along with the negative wires at each into the remaining positive terminals. DO NOT do this with the amplifier turned on as it could be damaged.)
# 1000 Hz test Tone - This test frequency is also a sine wave. For testing purposes sine waves are used because they are difficult to reproduce accurately and any audible harmonics are a form of distortion in your playback system. This frequency is sometimes used as an test tone for radio stations or TV stations.
# 10,000 Hz test Tone - again this is a sine wave but at a very high frequency. Subjectively, this is difficult to describe because it is a very high pitch and you will probably barely be able to hear it even if your ears are good. Most multimedia speakers will play this tone. This is generally not perceived as a musical note.
# 15,000 Hz test Tone - Also a sine wave but at such a high frequency that many adults might not be able to hear it and many multimedia speakers might not play at a loud enough level to be audible. Our ears are naturally insensitive to frequencies this high. We do not recommend turning up the volume on this one. If you have a multimedia speaker with a tweeter then damage could result if the speaker is turned up loud for even a short period of time.
Thats it. If your multimedia speaker played all of these tones and did so correctly then you not only have a good multimedia speaker, but have good hearing as well.
Hope this helps everyone
Cheers
Earle