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[EMAIL PROTECTED] (gudmundur) wrote in message news:<[EMAIL PROTECTED]>... > Base audio has no sidebands, it is monoband so to speak. It does not become > sideband until you modulate a carrier, remove the carrier, and possibly also > remove one sideband. not true. consider that you are whistling a pure tone of 1KHz into an SSB transmitter's input. If the SSB transmitter was tuned to 7.000MHz, you would get just a carrier at 7.001MHz. Thus, a single tone SSB signal is virtually indistinguishable from just a carrier. now consider that the human voice is expressed as a number of simultaneous pure tones superimposed over each other (easily obtained by converting the time domain signal into frequeny domain). Now imagine that for each of the tones, you have a separate transmittter offsetted from the carrier by a frequency obtained by frequency analysis and also with equivalent amplitude. this is in effect, the SSB signal. to rephrase, we need to modulate a carrier and then remove it because that is seemingly the easiest way to generate SSB (but not a necessary way). > Even if you simulate this process in a sound card, which > can be done, and you produce the 'garbly' sound, you still have 'audio' which > when impressed upon your transmit carrier will still create normal double > sideband modulation. The only way to get the result you are looking for would there is an entirely different approach, we are advocating that we split the signal into a number of component audio frequencies and essentially run a carrier that is the equivalent of each of those frequencies. >From the above example of a single tone, lets expand this to a two tone ssb exciter. Lets imagine that such a signal can be represented by two carriers that have relative amplitudes of the two tones and are shifted from an imaginary carrier by amounts equivalent to their tone frequencies. a frequency modulated signal generates sidebands according to a bessel function. Thus a correctly modulated FM signal will also result in two tones being generated at two frequencies. In order to control multiple sidebands, an envelop shaping will have to be applied to the FM signal. The frequency modulation and the amplitude modulation can be easily computed digitally. What is really difficult is to accurately frequency modulate the carrier. One way is to directly generate the carrier digitally using DDS. I am not aware of any amateur effort in trying this method out. I seem to have vaguely read about it in either EMRFD or the new ARRL Handbook. - farhan
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