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Topic: New Highly Miniaturized Arduino (Read 6331 times) previous topic - next topic

cpclaser

We've recently built a highly miniaturized Arduino (pictured below) that may be interesting to some of the members of this forum.  It's in the form of a 10mm x 10mm x 1.5 mm encapsulated module attached to a 25 conductor polyimide flex cable with conductor pitch of 0.3mm. 

The module includes an Atmega 328P chip with a 2.8v LDO regulator, an inverter that is useful for interrupt management, a dedicated I2C interface, an SPI interface and several other digital and analog I/O options. Schematics and an Eagle layout are available at www.potomacmeso.com. We built this setup for wireless sensing applications, but it probably would be useful in other areas where miniaturization is important. If there is enough interest, we may offer this as a product. Right now we're comp'ing a few of these to advanced users with miniature applications. 

Comments and suggestions are always welcome.

robtillaart

Impressive!

This is a nice one to use in e-clothing - like the lilypad.

Furthermore I think the smallness makes it possible to build it into almost anything.
You need also miniaturized sensors to make it a real hit imho.

Rob Tillaart

Nederlandse sectie - http://arduino.cc/forum/index.php/board,77.0.html -
(Please do not PM for private consultancy)

Lakes

At first glance It looks like a watch with a strap, add a display on top for DIY Pebble watch?

xl97

Sweet!..

I think this could have a HUGE impact of the DIY/prop makes out there..

always 'smaller' to work in those odd props/projects!!

(going to read link now)


cpclaser

Thanks for all of the comments.  These are all good. 

A bottom view of the 10mm x 10 mm active module is shown in the attachment.  The connection pads are the staggered arrays on the left and right sides of the package.  The module resembles a big surface mount chip and there's more room inside for other components.  We've also built sensor arrays in the same modular format. 

In some ways these modules are like big ASIC's that can be mounted in several ways.  The second attached photo shows top and bottom views of a complete wireless sensor built around an Arduino module and an accelerometer module.  We used a 2.4GHz wireless module from Anaren here.  If anyone is interested in the Anaren/Arduino interface firmware we've posted it at www.potomacmeso.com and also on Github.

codlink

The download for the Eagle files of Arduino seem to be broke.  Comes up with what looks like a html page..
//LiNK

cpclaser

Thanks for the feedback. 
I'm looking into ways to make the download a little smoother.  In the meantime, try right clicking on the download link and selecting "Save target as...".  After saving, change the file extension from .xml to .brd.  Then you should be able to open it with the v6 versions of Eagle.  This works on my system.  Let me know if you continue to have problems.

codlink

Thanks for the tip.  Very impressive device.  I would be interested in purchasing.  Please keep us updated!
//LiNK

cpclaser

We aren't selling these yet, but, if you have an application that needs a miniature Arduino, send me a note at www.potomacmeso.com/contact.  I'll try to get you something to work with.

AlxDroidDev

These are so cool! Really, I am impressed.

I was at your site, just wondering about the technology required to built these tiny devices.... that's one thing I'd like to know more about.
Learn to live: Live to learn.
Showing off my work: http://arduino.cc/forum/index.php/topic,126197.0.html

cpclaser

Thanks. 

We use a laser-based process in which narrow grooves and holes are engraved in a thin substrate and filled with nanoparticle silver paste that cures to solid silver at moderate temperatures.  Typical conductor widths are 15 micrometers.  These narrow conductors are easy to route between pads and under components to make miniature circuit modules using the smallest surface mount components.  Connections to the silver conductors are made with conductive epoxy. 

There is more detail on the module fabrication process in the publications on the download page at potomacmeso.com.  No photolithography or etching is involved and no lead is used so the process is pretty green.

aarondc

Is it your intent to sell these boards, in time?
Windows serial port monitor: Tellurium | Arduino serial port debugging library: DBG | Cusom LCD char generator | Technical questions will only be answered in forum threads

cpclaser

Yes, but we would first like to get more input from various kinds of users about what they need inside the miniature modules (MCU type, regulators, sensors, op amps, memory, etc.) and how they would like to connect to it (connectors, cable, solder contacts to a board, epoxy contacts to a board, etc.).  Comments and suggestions are always appreciated, either here or through our website, www.potomacmeso.com.

aarondc

I have some project ideas, but am too new to the technology to answer the requirements question with enough confidence to make it worthwhile. I'll definitely watch with interest.
Windows serial port monitor: Tellurium | Arduino serial port debugging library: DBG | Cusom LCD char generator | Technical questions will only be answered in forum threads

brunialti

i'm strongly interested in the wireless sensor node. Never considered the nrf24l01+ chips. That could be a good couple ...

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