I'm continuing my learning process on the DSP board. I've learned a few things:

Baseand filters are a pain. Well, most filters are a pain, but baseband filters are especially a pain. I couldn't find a pre-made filter that was really suitable. Well, I found one, but it didn't meet the temperature range. I have a design using op amps, but it uses 4 op amps to achieve a transition band that is about the same size as the passband for a stopband at -60db. That's 4 op amps, each for I and Q in each direction, so 16 total. At least you can get 2-4 in a package. The design simulates well in spice, but achieving a sharper filter appears to be very hard. If that's the case, we will have to sample at twice the cutoff frequency, basically losing half the bandwidth. So for a 200KHz bandwidth, we would have to sample at 400KHz and just throw away the top portion. This is a problem with narrow bandwidths; if you had a really wide bandwidth then you could use an LC filter and that would work better. An LC filter with 200KHz cutoff is rather... large.

Second, I don't really understand clocks. In the designs I have done in telecom you generally just relied on the incoming clocks, but that's not radio. I found a chip from TI that is a PLL with a VCO and might do the job, a LMK05318B-Q1, though it's kind of power hungry. Or you could get programmable oscillators like the DSC8001CL5, but all of those only seem to go to 150MHz or so. There are fixed oscillators with higher frequencies. But the amount of error possible in the frequency seems pretty significant.

But I don't understand about frequency stability. For instance, on the oscillators that the blinky board is using, you have 16MHz with 2.5PPM stability. IIUC, that would be +/- 40Hz. But when you multiply that up to 440MHz, that error would become 1100KHz, which seems pretty large. Am I understanding this correctly? Is this something to worry about?

You could compensate in the digital side if you knew what the error was.

Is there anyone I could discuss things with that knows about these sorts of things? Not much available on the internet.

Thanks,

-corey