<div dir="ltr"><div class="gmail_extra">
<br><br><div class="gmail_quote">On Mon, Aug 26, 2013 at 1:33 PM, Rick Perley <span dir="ltr"><<a href="mailto:rperley@nrao.edu" target="_blank">rperley@nrao.edu</a>></span> wrote:<br><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex">
I circulated a report on Sunday, noting that the remarkable<br>
improvement in L-band passband shapes is entirely due to the replacement<br>
of the old (narrowband) receivers with new ones, and asking for an<br>
explanation of why the band-edge rolloff, so prominently visible in S,<br>
C, and X band observation (with the 8-bit system) is absent from the<br>
L-band data.<br>
<br>
Keith and Emmanuel have provided me the explanation:<br>
<br>
The essence is in the use of the 64-MHz-wide spectral windows in the<br>
default setup for L-band.<br>
<br>
There are two obvious ways to obtain a full 1024 MHz-wide coverage<br>
at L-band:<br>
<br>
1) Utilize only one IF pair (say, A and C), and tune this to the<br>
988 to 2012 MHz passband. There would be eight 128 MHz-wide spectral<br>
windows, with 2 MHz spectral resolution for full polarization.<br>
<br>
2) Utilize both IF pairs, tuning the first to (say) 988 to 1500 MHz,<br>
and the second to (say) 1500 to 2012 MHz. In this case we get 64<br>
MHz-wide spectral windows with 1 MHz spectral resolution and full<br>
polarization.<br>
<br>
Simply from spectral resolution arguments alone, the second option<br>
is preferred. But there is another benefit (which I had forgotten):<br>
The correlator is able to utilize its spectral window formation<br>
capabilities to place the eight 64 MHz-wide spectral windows anywhere<br>
within the 1024 MHz-wide input IF. So, in the new default tuning<br>
arrangements:<br>
<br>
IFs A and C are tuned to 802 to 1826 MHz (center of 1308 MHz). The<br>
correlator's first stage filter forms eight 128-MHz-wide subbands, from<br>
which the eight 64 MHz-wide spectral windows are selected. The low-end<br>
rolloff is avoided as the eight narrow windows are taken from 2nd<br>
through 6th of the original subbands.<br>
IFs B and D are tuned to 1170 through 2194 MHz. The eight<br>
64-MHz-wide spectral windows are selected from the third through seventh<br>
of the original 128-MHz-wide subbands, thus avoiding the low-frequency<br>
rolloff, which is in the lowest two subbands.<br>
<br>
Emmanuel reminds me that this tuning arrangement was recommended in<br>
his Memo #159.<br>
<br>
<br></blockquote><div><br></div><div><br>a very minor correction: this tuning arrangement was recommended in Memo #154.<br></div><div> </div></div><br></div></div>