Hi All
--- In
ComputerVoltageSources@yahoogroups.com, "Grant Richter"
<grichter@...> wrote:
>
> Since we are spinning a new board, I think it would be useful to
have full synthesizer style
> inputs. That is algebraic summing with offset and span for each
channel. Plus calibratable
> voltage inputs, so you can compute in real floating point voltages
and interface 1 volt per
> octave keyboards.
>
I built this type of input structure for my PSIM and found it to be
REALLY useful so i endorse this feature strongly.
The added cost and footprint of the input summing amps (and the extra
knoibs & pots) can be easily bypassed if the user/kit builder does not
require them.
While i'm on the subject...
('oh boy' the list groans , 'we KNEW he couldn't stick to just ONE
topic in a message!')
let me describe a 'feature' that i added to my PSIM that i'm NOT
endorsing for the theoretical CVS gadget.
(but that might tickle the fancy of other bomb-throwing musical
bolsheviks out there)
i normalled a transistor-type analog noise (scaled 0-10V) to input
one. The inernal random function was 'repeating' a little too much for
my persnickety tastes in randomness. when i need a little
unpredictability left over from the big bang i just sample input one,
(assuming that nothing external is plugged into it) and voila! All i
have to do is scale the result, using simple division, to whatever
range is required by the software.
Rest assured the software i release does not exploit this
idiosyncratic mod.
to infinity! and beyond!
-doc