Difference between revisions of "Solar Design"

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(Power calculations)
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===Power calculations===
 
===Power calculations===
 
====Average power consumption====
 
====Average power consumption====
Pi A: 200 ma @ 5V = 1 W
+
Pi A: 200 ma @ 5V = 1 W<br>
Scale: 50 ma @ 12V = .6 W
+
Scale: 50 ma @ 12V = .6 W<br>
(The actual measured Pi power consumption is 120 Ma.)
+
(The actual measured Pi power consumption is 120 Ma.)<br>
Assume PS efficiency is 85% 2 watts/.85 = 2.4 watts
+
Assume PS efficiency is 85% 2 watts/.85 = 2.4 watts<br>
2.4 watts / 6 VDC = .4 amps
+
2.4 watts / 6 VDC = .4 amps<br>
.4 amp x 24 hours = 9.6 AHr
+
.4 amp x 24 hours = 9.6 AHr<br>
derate 200 AHr battery to 100 AHr
+
derate 200 AHr battery to 100 AHr<br>
100 AHr / 9.6 AHr/day = 10.4 days
+
100 AHr / 9.6 AHr/day = 10.4 days<br>
 
====Charge rate====
 
====Charge rate====
Goal: 4.8 watts (2x consumption)
+
Goal: 4.8 watts (2x consumption)<br>
5 watts x 24 hours = 120 watt hours
+
5 watts x 24 hours = 120 watt hours<br>
120 watt hours / 20 watt = 6 hours at maximum output (12 hours at 50% output
+
120 watt hours / 20 watt = 6 hours at maximum output (12 hours at 50% output<br>
Derate panel to 15 watts = 7.6 hours
+
Derate panel to 15 watts = 7.6 hours<br>
 
(note: 20 watts is maximum output and that probably won't ever happen - especially if the panel is flat on the top of the hive. I would feel more comfortable using a 40 watt solar panel 2.3 amps max output.)
 
(note: 20 watts is maximum output and that probably won't ever happen - especially if the panel is flat on the top of the hive. I would feel more comfortable using a 40 watt solar panel 2.3 amps max output.)
  

Revision as of 18:12, 20 January 2014

GOALS

  1. Operate through a week of rain (battery life of 10 days).
  2. One day of sun provides 2 days of operation (operate unit 1 day and charge batteries 1 days worth) so need an average of 50% sunny days.
  3. Low profile (solar array fits on the top of a 10 frame Langstrough hive.)
  4. Affordable. Readily available parts.
  5. Simple. Easy to build and maintain.

UNDER CLOCKING

DESIGN

Power calculations

Average power consumption

Pi A: 200 ma @ 5V = 1 W
Scale: 50 ma @ 12V = .6 W
(The actual measured Pi power consumption is 120 Ma.)
Assume PS efficiency is 85% 2 watts/.85 = 2.4 watts
2.4 watts / 6 VDC = .4 amps
.4 amp x 24 hours = 9.6 AHr
derate 200 AHr battery to 100 AHr
100 AHr / 9.6 AHr/day = 10.4 days

Charge rate

Goal: 4.8 watts (2x consumption)
5 watts x 24 hours = 120 watt hours
120 watt hours / 20 watt = 6 hours at maximum output (12 hours at 50% output
Derate panel to 15 watts = 7.6 hours
(note: 20 watts is maximum output and that probably won't ever happen - especially if the panel is flat on the top of the hive. I would feel more comfortable using a 40 watt solar panel 2.3 amps max output.)

NOTES

1. Battery Amp Hour ratings are theoretical. A 200 AHr battery in theory would supply 200 amps for 1 hour or 1 A for 200 hours. In practice this is far from true - there is a better chance of getting closer to 1 A for 200 hours than 200 amps for 1 hour. The point is, the AHr rating of the battery must be derated (depends on the rate of discharge and temperature). 2. 6 V golf cart batteries are better deep cycle batteries (thicker plates) than 12 V marine deep cycle which are a compromise. Battery life depends mostly on Depth of Discharge (DOD) - the bigger DOD, the shorter the battery life. 3. A solar "Charge Controller" probably won't work - DO NOT USE THIS: http://www.amazon.com/Sunforce-7-Amp-Charge-Controller/dp/B0006JO0XI/ref... Hardware: 40 Watt solar array: http://www.ebay.com/itm/40w-New-40-watt-Module-Sun-Solar-Panel-PV-Poly-c... $54 on ebay Battery: http://www.ebay.com/itm/Trojan-Black-Box-6-Volt-210-Amp-Hour-Deep-Cycle-... $95 on ebay, probably find locally (Sam's Club) Solar Charger/PS: http://www.prodctodc.com/dc-auto-boost-buck-converter-25w-315v-to-0530v-... $7 WiFi Adapter: http://www.amazon.com/Importer520-Wireless-Adapter-Antenna-54Mbps/dp/B00... $10 (This is about $170 not counting shipping/taxes.) May need gain antenna: http://www.mfjenterprises.com/Product.php?productid=MFJ-1800 $30