> Is there any way to multiplex highspeed ADC's? I'm looking at playing
> with accelerometers, and so far the best I can figure out is a ADC to
> every single accelerometer. Which is silly, they'd be generating
> n-devices worth of data but my microcontroller would probably only be
> able to stream in one or two devices at best (bw limitation). Seems
> like one or two ADC's would be best.
>
> Uh, I did have one idea... relays. :/ My power budget would be better
> running all those ADC's.
>
> rektide
>
What's 'highspeed'?
Particularly in terms of samples/sec.
Just what technique you use depends partially on the converter you need
to use.
Cheers
PeteS
Reply by Vladimir Vassilevsky●October 7, 20062006-10-07
rektide wrote:
> Is there any way to multiplex highspeed ADC's?
Certainly. It is not a problem to share the ADC with the total sample
rate of up to 1M aproximately.
I'm looking at playing
> with accelerometers, and so far the best I can figure out is a ADC to
> every single accelerometer. Which is silly, they'd be generating
> n-devices worth of data but my microcontroller would probably only be
> able to stream in one or two devices at best (bw limitation). Seems
> like one or two ADC's would be best.
Make sure of the two things:
* The ADC is the real sampling ADC, not delta-sigma.
* The timeconst of the analog path through the mux with the all
associated circuitry should be at least 10 times faster then the sample
rate.
>
> Uh, I did have one idea... relays. :/ My power budget would be better
> running all those ADC's.
The best analog muxes are done by Maxim, next is ADI.
Vladimir Vassilevsky
DSP and Mixed Signal Design Consultant
http://www.abvolt.com
Reply by CBFalconer●October 7, 20062006-10-07
Mark Borgerson wrote:
> cbfalconer@yahoo.com says...
>> rektide wrote:
>>>
>>> Is there any way to multiplex highspeed ADC's? I'm looking at
>>> playing with accelerometers, and so far the best I can figure out
>>> is a ADC to every single accelerometer. Which is silly, they'd be
>>> generating n-devices worth of data but my microcontroller would
>>> probably only be able to stream in one or two devices at best (bw
>>> limitation). Seems like one or two ADC's would be best.
>>
>> High speed, not easy. However you can do the input multiplexing
>> digitally by one comparator per channel and a DAC. You need to
>> write the software for successive approximation ADC conversion,
>> picking the appropriate comparator to control. The critical speed
>> limitation is the settling time for the DAC.
>>
>> The DAC drives one side of all the comparators (needs to be stiff
>> enough, and the comparators need reasonably high input impedance).
>> Then you feed the other sides of the comparators from the input
>> anti-aliasing filters. No sample and hold needed, the result will
>> be a value that was present sometime during the conversion cycle.
>
> Seems like a lot of bother. There are plenty of SPI-connected
> ADCs out there that could handle 4 channels at 5KHz each.
> I guess it all depends on what the OP means by 'high speed'.
> Most of the MEM accelerometers don't have a bandwidth much
> beyond 2.5KHz in any case.
>
> It's also possible to get the Analog Devices accelerometers with
> pulse-width output---in which case you don't even need the
> ADC.
In article <45270D7D.BE3E5659@yahoo.com>, cbfalconer@yahoo.com says...
> rektide wrote:
> >
> > Is there any way to multiplex highspeed ADC's? I'm looking at
> > playing with accelerometers, and so far the best I can figure out
> > is a ADC to every single accelerometer. Which is silly, they'd be
> > generating n-devices worth of data but my microcontroller would
> > probably only be able to stream in one or two devices at best (bw
> > limitation). Seems like one or two ADC's would be best.
>
> High speed, not easy. However you can do the input multiplexing
> digitally by one comparator per channel and a DAC. You need to
> write the software for successive approximation ADC conversion,
> picking the appropriate comparator to control. The critical speed
> limitation is the settling time for the DAC.
>
> The DAC drives one side of all the comparators (needs to be stiff
> enough, and the comparators need reasonably high input impedance).
> Then you feed the other sides of the comparators from the input
> anti-aliasing filters. No sample and hold needed, the result will
> be a value that was present sometime during the conversion cycle.
>
>
Seems like a lot of bother. There are plenty of SPI-connected
ADCs out there that could handle 4 channels at 5KHz each.
I guess it all depends on what the OP means by 'high speed'.
Most of the MEM accelerometers don't have a bandwidth much
beyond 2.5KHz in any case.
It's also possible to get the Analog Devices accelerometers with
pulse-width output---in which case you don't even need the
ADC.
Mark Borgerson
Reply by CBFalconer●October 6, 20062006-10-06
rektide wrote:
>
> Is there any way to multiplex highspeed ADC's? I'm looking at
> playing with accelerometers, and so far the best I can figure out
> is a ADC to every single accelerometer. Which is silly, they'd be
> generating n-devices worth of data but my microcontroller would
> probably only be able to stream in one or two devices at best (bw
> limitation). Seems like one or two ADC's would be best.
High speed, not easy. However you can do the input multiplexing
digitally by one comparator per channel and a DAC. You need to
write the software for successive approximation ADC conversion,
picking the appropriate comparator to control. The critical speed
limitation is the settling time for the DAC.
The DAC drives one side of all the comparators (needs to be stiff
enough, and the comparators need reasonably high input impedance).
Then you feed the other sides of the comparators from the input
anti-aliasing filters. No sample and hold needed, the result will
be a value that was present sometime during the conversion cycle.
--
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<http://www.geocities.com/nnqweb/>
<http://www.catb.org/~esr/faqs/smart-questions.html>
<http://www.caliburn.nl/topposting.html>
<http://www.netmeister.org/news/learn2quote.html>
<http://cfaj.freeshell.org/google/>
Reply by rektide●October 6, 20062006-10-06
Is there any way to multiplex highspeed ADC's? I'm looking at playing
with accelerometers, and so far the best I can figure out is a ADC to
every single accelerometer. Which is silly, they'd be generating
n-devices worth of data but my microcontroller would probably only be
able to stream in one or two devices at best (bw limitation). Seems
like one or two ADC's would be best.
Uh, I did have one idea... relays. :/ My power budget would be better
running all those ADC's.
rektide