Thanks Andy!<br><br>I have achieved my purpose with a variation of your patch!<br>I need a patch with a specified ratio M:N, and your patch doesn't allow 1:N ratios, but with a small change I have make it available.<br>
<br>See attached patch!<br><br>Saludos!<br><br><br><div><span class="gmail_quote">2008/1/20, Andy Farnell <<a href="mailto:padawan12@obiwannabe.co.uk">padawan12@obiwannabe.co.uk</a>>:</span><blockquote class="gmail_quote" style="border-left: 1px solid rgb(204, 204, 204); margin: 0pt 0pt 0pt 0.8ex; padding-left: 1ex;">
On Sun, 20 Jan 2008 17:18:20 +0100<br>"raul diaz" <<a href="mailto:raul.lete@gmail.com">raul.lete@gmail.com</a>> wrote:<br><br><br>> Would be better to use a masked phasor as synthesizer input, but how to
<br>> generate a masked phasor with a M:N cycles relation?<br>> Maybe with a inverted phasor~ and samphold~?<br>><br><br>You can split the phase in the signal domain like this. See attached.<br><br> [phasor~]<br>
[*~ 4]<br> / \<br>[max~ 0] [max~ 1]<br>[min~ 1] [min~ 2]<br>| [-~ 1]<br> \ /<br> [+~]<br> [-~ 1]<br><br>--<br>Use the source<br><br>_______________________________________________<br><a href="mailto:PD-list@iem.at">
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<br>-- <br>Raul Diaz Poblete<br>*************************<br><a href="mailto:raul.lete@gmail.com">raul.lete@gmail.com</a><br>Barcelona [Spain]