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Difference between revisions of "Mihini/Developer Kit"
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* The dev. kit must include enough built-in physical inputs and outputs to make it more useful than just "push the button/blink a LED". List of interesting -yet relatively cheap- inputs include: temperature sensor, light sensor, (heartbeat sensor??). Outputs: LCD display, buzzer (?), ... | * The dev. kit must include enough built-in physical inputs and outputs to make it more useful than just "push the button/blink a LED". List of interesting -yet relatively cheap- inputs include: temperature sensor, light sensor, (heartbeat sensor??). Outputs: LCD display, buzzer (?), ... | ||
* The dev. kit should have a handful of Grove-like (http://www.seeedstudio.com/wiki/GROVE_System) connectors so as it is possible to plug external sensors easily (e.g. an heart-rate earclip) | * The dev. kit should have a handful of Grove-like (http://www.seeedstudio.com/wiki/GROVE_System) connectors so as it is possible to plug external sensors easily (e.g. an heart-rate earclip) | ||
+ | * The dev. kit should be made of electronic components widely available | ||
+ | * The dev. kit's "simulating programs" must be open source | ||
= Proposed solution = | = Proposed solution = |
Revision as of 19:38, 17 September 2012
This page collect ideas for what will eventually become an official Mihini/M2MIWG developer kit. The aim of such a kit is to provide all the required H/W for running and evaluating Mihini. It has to be available from virtually any electronics reseller, and at a very affordable price (< 50USD?)
Features
- The dev. kit must be repurposable, i.e it must be able to act as a Modbus device, CAN Bus device, ... depending on the solution the developer wants to prototype.
- The dev. kit must be available both in the form of a kit (cheapest form), and pre-assembled
- The dev. kit must include enough built-in physical inputs and outputs to make it more useful than just "push the button/blink a LED". List of interesting -yet relatively cheap- inputs include: temperature sensor, light sensor, (heartbeat sensor??). Outputs: LCD display, buzzer (?), ...
- The dev. kit should have a handful of Grove-like (http://www.seeedstudio.com/wiki/GROVE_System) connectors so as it is possible to plug external sensors easily (e.g. an heart-rate earclip)
- The dev. kit should be made of electronic components widely available
- The dev. kit's "simulating programs" must be open source
Proposed solution
In order to propose a repurposable dev. kit, it would be good to rely on an Arduino coupled to a dedicated shield giving serial (is Arduino serial enough or do we want RS-232/DB-9 too?) connectivity, holding a temperature and humidity sensor, and allowing to connect external buttons and display using a Grove connector.
BOM
Item | Qty | Total Cost (USD) |
---|---|---|
Arduino Leonardo | 1x | 25.00 |
Clear Acrylic faces, engraved | 2x | 6.00 |
Temperature sensor | 1x | 1.50 |
Light sensor (photocell) | 1x | 1.50 |
TOTAL | 34.00 |