> Test setup:
>
> o A signal generator producing -46dBm at 38.1MHz
> o USRP2 + Basic_RX
>
> o GRC flowgraph:
> o An FFT filter, reducing the incoming 250KHz bandwidth to 5KHz
> o A power detector:
>
> (I**2 + Q**2)--->single-pole-iir-filter
>
> o A strip-chart scope display
>
> Using the scope display, I measured the detector output difference
> between nothing connected (which on the BASIC_RX means that
> the A/D is "seeing" the 50-ohm termination across the input-half of
> the balun transformer), and my -46dBm signal connected.
>
> That difference amounted to a 65dB difference in detected output power.
> Doing the math, does that mean that a "naked"
> USRP2 + Basic_RX is sensitive down to roughly -111dBm, or should I
> factor in root(5KHz), which brings it up to -92dBm.
I would spec that configuration as being sensitive down to -111dBm, as
that is the input signal power that is equivalent to the noise power
you're seeing (you can spot signals so long as they're slightly higher
than -111dBm). Of course, as you do some processing, or change filter
settings, this will change. It also doesn't mean that you could demod a
signal at -111dBm (you still need some margin of SNR), and if you were
speccing for a customer, you might bump that up a bit to give yourself
some 'wiggle room.'
That's at least how I see it. Anybody else care to weigh in?
--
Patrick Yeon
ThinkRF
613-369-5104 x418
_______________________________________________
Discuss-gnuradio mailing list
Discuss-gnuradio@gnu.org
http://lists.gnu.org/mailman/listinfo/discuss-gnuradio
No comments:
Post a Comment