Hi,
Thank you for your reply!
I would consider LimeSDR or maybe XTRX, it have a GPS onboard and PCI-ex
interface.
Best regards,
Tavi
În mar., 11 feb. 2020 la 08:05, Mugundhan vijayaraghavan <
v.vaishnav151...@gmail.com> a scris:
> Hello Tavi,
>
> There are implementations of red pitaya as a
Hello,
Reading this topic I've understand that Red Pitaya cannot tune to any
frequency band like a SDR does. From my point of view is not adequate to
use as a wide band solar bursts spectrograph.
I would use SDR(s) instead, with the radio front end already made. The
speed of sweeps is a concern a
m that and
> develop. It is available at https://github.com/VU3VWB/rtlsdr_spec_analyser ;
> try rtl_spec_analyser_fft_scan_3.py
>
> NB: This is my first time replying to a mailing list, please let me know
> if there is some silly mistake (reply, reply to all etc.)
>
> Regards,
asper
> wiki pages.
>
>
> best wishes,
>
> dan
>
>
>
>
> Dan Werthimer
> Marilyn and Watson Alberts Chair
> Astronomy Dept and Space Sciences Lab
> University of California, Berkeley
>
>
> On Tue, Nov 12, 2019 at 1:27 AM Tavi B >
> wrote:
&g
Hello,
I'm new in this research, in Romania there is no scientific radio telescope
yet. I'm working at the Solar Group of Astronomical Institute of Romanian
Academy and this is the reason I would start with a solar radio
spectroscope, CALLISTO like station. I searched an inexpensive SDR to
emu
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