Difference between revisions of "How To"
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| − | #[[Manual: Model A| | + | #[[Manual: Model A|User Manual for the Model A POE.]] Developed for the [[South Carolina Hive Instrumentation Project]] |
#[[load hivetool on the Pi|How to load hivetool on the Pi]] provides detailed software installation instructions. | #[[load hivetool on the Pi|How to load hivetool on the Pi]] provides detailed software installation instructions. | ||
#[[Solar Design]] construction notes. | #[[Solar Design]] construction notes. | ||
| − | #[[Interface the DCT HX711 to Pi|Build a scale]] | + | #[[Interface the DCT HX711 to Pi|Build a scale]] based on the Pi. |
Revision as of 13:41, 25 April 2014
How to build a hive monitoring system.
Platform
Desktop, laptop or Raspberry Pi will work.
We seem to be moving to a standard model, a solar powered, wi-fi, web appliance, based on the Raspberry Pi.
Power Supply
AC Power. Running from AC power mains is probably the least expensive but not the safest, nor does it provide the most protection from lightning. At the minimum, use a Ground Fault Interrupter (GFI) and make sure the AC connections are well taped up and waterproof or the GFI will trip when it rains.
Solar. Solar power will nearly double the cost of the system and requires more work in wiring the power supply and battery charger. We are trying to reduce the cost of the battery and solar panel by minimizing the system's power consumption.
Resources
- User Manual for the Model A POE. Developed for the South Carolina Hive Instrumentation Project
- How to load hivetool on the Pi provides detailed software installation instructions.
- Solar Design construction notes.
- Build a scale based on the Pi.
