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"ralph sansbury" <[EMAIL PROTECTED]> writes: > I would accept your explanation if you could explain why the > law > of superposition does not apply here and how other filters > at the output can produce each of the two input gate frequencies > and > how electric fields multiply. The principle of linear superposition requires a linear medium. However, the mixer is a nonlinear electronic device, and therefore superposition does *not* apply. I confess ignorance of what precise components are inside the mixing circuit. The key point is that the mixer is *designed* to multiply the incoming signal by a reference signal. Since the reference signal is oscillatory, the result is the beat, or frequency difference, which is desireable because such an intermediate frequency is more straightforward to digitize and analyze. An ideal mixer simply shifts the frequency; it does not filter the signal. However, for the purposes of digitization, one must bandpass-filter the IF signal. The 1 MHz bandwidth of the filter is very large. It is larger than any expected signal Doppler shift in the solar system, which is of order +/- 400 kHz [based on earth motion of ~30 km/s]. Thus, there is nothing in the data acquisition system which assume a particular expected sky frequency. CM
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