Difference between revisions of "Heterodyne Mixers"

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===Short Topical Videos===
===Short Topical Videos===
* [http://www.youtube.com/watch?v=Mm7WfVzr1ao Basics of RF Mixers in Radio Receivers (w2aew, YouTube)]
* [http://www.youtube.com/watch?v=Mm7WfVzr1ao Basics of RF Mixers in Radio Receivers (w2aew, YouTube)]
* [https://www.youtube.com/watch?v=junuEwmQVQ8 How a Diode Ring Mixer Works (w2aew, YouTube)]
===Reference Material===
===Reference Material===

Latest revision as of 12:19, 28 January 2020

Short Topical Videos[edit]

Reference Material[edit]

1 Mixing (a.k.a. Heterodyning, Multiplying)

First, you mix (multiply) your input signal with a sine wave of a carefully selected frequency. As we know from the convolution theorem, multiplying in the time domain is the same as convolving in the frequency domain, so if our input signal is with Fourier transform , we have

By substituting , so that

it should become apparent that we’ve shifted the spectrum of . We now measure at frequency the spectrum a .

The only thing to pay attention to is that when I said “sine wave”, I really meant . That is, you actually need to multiply by both a cosine (to get the real part) and a sine (to get the imaginary part) to have truly mixed with a tone at frequency . This is commonly known as I/Q mixing (I = cosine, Q = sine). One of the hardest parts of I/Q mixing is ensuring that your cosine and sine waves are in perfect quadrature (i.e. phase shifted by exactly ). Failure to do so will result in false “images” of tones at corresponding positive/negative frequencies.

If you are too cheap to mix with both components, and instead only mix with the cosine (or just the sine, it doesn’t matter), you’ve actually mixed with two tones: one at and one at . This we know from our basic trig identities for sine and cosine. As a result, will now measure at . If you are careful with your filters so that you get rid of the part, then your cheapness didn’t cost you performance, and may have saved you some money.