Difference between revisions of "User:Definitionofis"

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(Created page with '=== Fridge Defrost Timer with Solar Trigger Option === The [http://www.youtube.com/watch?v=62LHITkTCMs project video] shows a fridge timer which can be set to trigger during …')
 
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=== [[Solar panel rotator motor power with auto-shut-off]] ===
 
=== [[Solar panel rotator motor power with auto-shut-off]] ===
 
The [http://www.youtube.com/watch?v=yCeiL8_Uw2U project video] shows a way to power solar panel rotator motors from a solar panel, supplemented by a walladapter.
 
The [http://www.youtube.com/watch?v=yCeiL8_Uw2U project video] shows a way to power solar panel rotator motors from a solar panel, supplemented by a walladapter.
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=== [[MPPT Solar and Wind Power Boost Charge Controller]] ===
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The [http://www.youtub...] is a preliminary circuit idea to match a low voltage solar or wind turbine input to a higher voltage battery. An analogue circuit will measure incoming current and voltage inputs to set the maximum power point tracking (MPPT) and boost the output voltage up to charge a higher, or equal voltage, battery. Input voltage range: 9v through 60v. Output battery voltages: 9v through 60v. MPPT will work only if the battery is higher than the input source. Otherwise, the circuit will act like a direct connection, source to output.

Revision as of 11:05, 8 May 2012

Fridge Defrost Timer with Solar Trigger Option

The project video shows a fridge timer which can be set to trigger during high battery voltage sunny days so the defrost cycle never uses valuable battery power. It is switchable to act like a regular defrost timer for long cloudy stretches of time, like winter.

Solar panel rotator motor power with auto-shut-off

The project video shows a way to power solar panel rotator motors from a solar panel, supplemented by a walladapter.

MPPT Solar and Wind Power Boost Charge Controller

The [1] is a preliminary circuit idea to match a low voltage solar or wind turbine input to a higher voltage battery. An analogue circuit will measure incoming current and voltage inputs to set the maximum power point tracking (MPPT) and boost the output voltage up to charge a higher, or equal voltage, battery. Input voltage range: 9v through 60v. Output battery voltages: 9v through 60v. MPPT will work only if the battery is higher than the input source. Otherwise, the circuit will act like a direct connection, source to output.