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Announcing an Open Source ADC board for BeagleBone
Wednesday, July 20, 2016
Posted by Jason Holt, Software Engineer
(Cross-posted on the
Google Open Source Blog
)
Working with electronics, we often find ourselves soldering up a half baked electronic circuit to detect some sort of signal. For example, last year we wanted to measure the strength of a
carrier
. We started with traditional analog circuits —
amplifier
,
filter
,
envelope detector
,
threshold
. You can see some of our prototypes in the image below; they get pretty messy.
While there's a certain satisfaction in taming a signal using the physical properties of capacitors, coils of wire and transistors, it's usually easier to digitize the signal with an
Analog to Digital Converter
(ADC) and manage it with
Digital Signal Processing
(DSP) instead of electronic parts. Tweaking software doesn't require a soldering iron, and lets us modify signals in ways that would require impossible analog circuits.
There are several standard solutions for digitizing a signal: connect a laptop to an oscilloscope or
Data Acquisition System
(DAQ) via USB or Ethernet, or use the onboard ADCs of a maker board like an
Arduino
. The former are sensitive and accurate, but also big and power hungry. The latter are cheap and tiny, but slower and have enough RAM for only milliseconds worth of high speed sample data.
That led us to investigate single board computers like the
BeagleBone
and
Raspberry Pi
, which are small and cheap like an Arduino, but have specs like a smartphone. And crucially, the BeagleBone's
system-on-a-chip
(SoC) combines a beefy ARMv7 CPU with two smaller Programmable Realtime Units (PRUs) that have access to all 512MB of system RAM. This lets us dedicate the PRUs to the time-sensitive and repetitive task of reading each sample out of an external ADC, while the main CPU lets us use the data with the GNU/Linux tools we're used to.
The result is an open source
BeagleBone cape
we've named
PRUDAQ
. It's built around the Analog Devices AD9201 ADC, which samples two inputs simultaneously at up to 20 megasamples per second, per channel. Simultaneous sampling and high sample rates make it useful for
software-defined radio
(SDR) and scientific applications where a built-in ADC isn't quite up to the task.
Our open source electrical design and sample code are available on
GitHub
, and
GroupGets
has boards ready to ship for $79. We also were fortunate to have help from Google intern Kumar Abhishek. He added support for PRUDAQ to his
Google Summer of Code
project
BeagleLogic
that performs much better than our sample code.
We started
PRUDAQ
for our own needs, but quickly realized that others might also find it useful. We're excited to get your feedback through the
email list
. Tell us what can be done with inexpensive fast ADCs paired with inexpensive fast CPUs!
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