Marcus thanks for your help.
I was trying with 2 antennas (WA5VJB) varying the usrp tx gain but the
results are the same (In this moment I dont have an attenuator). I was
reading a past mail from this list (March 25 2012) and there is a
similar
problem that I have: the q component is not zero, I send a mail to the
list
asking for it.
thanks
Marcus thanks foryourhelp.
I was trying with 2 antennas(WA5VJB)varyingtheusrp tx gain but the
results are the same(In this momentIdon’thave anattenuator).I was
reading a past mailfrom this list(March 252012) and there is a similar
problemthatI have: the q component is not zero, I send a mail to the
list asking for it…thanks
Consider the attached AM transmitter simulation that uses a complex
signal source for both the modulation source (1kHz tone), and the
carrier (0Hz).
Note that the signal spectrum is exactly as you would expect, and I and
Q are both non-zero in the “scope” sink.
Keep in mind that the representation of signals we talk about here is
given by:
x(t) = x1 (t) cos(?0 t) - x2 (t) sin(?0 t)
And that direct-conversion SDR hardware (such as the USRP) uses the I/Q
representation of the signals, in which both the in-phase and quadrature
components are significant.
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