Batteries and Solar: Difference between revisions

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== Batteries ==
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== Solar Load Estimates ==
 
Estimates of what it would take to achieve a year-round solar autonomy, for different continuous loads. The model assumes "typical" SF weather conditions ([https://docs.google.com/spreadsheets/d/1tJ-tQex7pu4SUx5vmLtDblHJkNIo922s6NCYq-UrDx8/edit?usp=sharing Link to model]).
   
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'''Note'''
=== Off The Shelf ===
  
   
 
A good portion of the capacity is just to meet the worst few days of the year, so if you are willing to sacrifice those, the system can be quite a bit smaller and still get you 95%+ annual up time.
* [https://www.amazon.com/gp/product/B0921SB3LJ/ Portable Mini UPS Battery Backup and PoE] - an easy to carry PoE and battery combo for testing nodes in the field
  
   
=== Just Batteries ===
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=== Estimates ===
 
Below all assume 26V LiFePO4 battery (using 80% of capacity), somewhat conservative, but not a lot of margin:
   
 
* 7W (cont.): 18A-h battery, 90W solar, 5A charge controller
* [https://www.amazon.com/s?k=Bioenno+Power Bioenno Power] - LiFePO4 batteries which are lightweight but support many more charging cycles compared to normal lithium batteries.
  
 
* 10W (cont.): 25A-h battery, 125W solar, 5A charge controller
 
* 15W (cont.): 38A-h battery, 190W solar, 10A charge controller
 
* 20W (cont.): 50A-h battery, 250W solar, 10A charge controller
 
* 40W (cont.): 100A-h battery, 500W solar, 20A charge controller
 
* 50W (cont.): 125A-h battery, 625W solar, 25A charge controller
 
* 60W (cont.): 150A-h battery, 750W solar, 30A charge controller
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== Batteries ==
   
== Solar ==
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=== Just Batteries ===
   
  +
* [https://www.amazon.com/dp/B09NTMGV28?psc=1&ref=ppx_yo2ov_dt_b_product_details Ampere Time 25.6v 100Ah LiFePO4 pack] [https://www.amazon.com/dp/B0BZ53R3S7?psc=1&ref=ppx_yo2ov_dt_b_product_details Fire proof bag!]
=== Off The Shelf ===
  
  +
* [https://www.amazon.com/LiFePO4-Battery-Perfect-Applications-Warranty/dp/B084DB36KW?ref_=ast_sto_dp&th=1&psc=1 LiTime 12v 100Ah LiFePO4 pack]
   
 
* [https://www.amazon.com/s?k=Bioenno+Power Bioenno Power] - LiFePO4 batteries which are lightweight but support many more charging cycles compared to normal lithium batteries.
* [https://www.jackery.com/products/jackery-explorer-160-solarsaga-60w-solar-generator Jackery] offer a range of all-in-one portable battery and charging packs. Can be used with optional solar panels.
  
  +
* [https://www.talentcell.com/lifepo4-battery/12v-24ah/lf4040.html TalentCell] - LiFePO4 batteries being evaluated at the [[Sunol Ridge]] site.
* [https://solar.ui.com Ubiquiti] provide solar charges specifically designed for use with their PoE Wifi products. Batteries and solar are bought separately.
  
   
  +
== Battery Charge Controllers ==
=== Uninterrupted Self Sustaining Solar Power ===
  
  +
* ALGcom DC UPS 24V 10A https://www.ispsupplies.com/ALGcom-FN-2400-10-ST
[[USSP]]
  
   
  +
* ALGcom DC UPS 48V 10A Manageable [https://www.anker.com/anker-solix SNMP] https://www.ispsupplies.com/ALGcom-FN-4800-10-SNMP
== Solar Load Estimates ==
  
Estimates of what it would take to achieve a year-round solar autonomy, for different continuous loads. The model a that assumes "typical" SF weather conditions. [https://docs.google.com/spreadsheets/d/1tJ-tQex7pu4SUx5vmLtDblHJkNIo922s6NCYq-UrDx8/edit?usp=sharing Link to model]
 
   
  +
== Uninterruptible Power Supply Controllers ==
NOTE: A good portion of the capacity is just to meet the worst few days of the year, so if you are willing to sacrifice those, the system can be quite a bit smaller and still get you 95%+ annual up time.
  
  +
* EdgePower Supply, 24V 72W https://store.ui.com/collections/operator-accessories/products/ep-24v-72w
   
  +
* EdgePower Supply, 54V 150W https://store.ui.com/collections/operator-accessories/products/edgepower-54v-150w
 
* [https://www.amazon.com/gp/product/B0921SB3LJ/ Portable Mini UPS Battery Backup and PoE] - an easy to carry PoE and battery combo for testing nodes in the field
   
  +
== Solar Charge Controllers ==
   
 
* [https://solar.ui.com Ubiquiti] provide solar charges specifically designed for use with their PoE Wifi products. Batteries and solar are bought separately.
Below all assume 26V LiFePO4 battery (using 80% of capacity), somewhat conservative, but not a lot of margin
  
  +
*Tycon [https://www.tyconsystems.com/tp-scpoe-2424-hp tp-scpoe-2424-hp] lacks the web ui, unable to set the battery charge targets.
  +
*Victron SmartSolar Chargers https://www.victronenergy.com/solar-charge-controllers
   
 
== Solar Monitoring ==
7W (cont.): 18A-h battery, 90W solar, 5A charge controller
  
   
  +
=== Victron ===
10W (cont.): 25A-h battery, 125W solar, 5A charge controller
  
  +
* VenusOS - free to use software for monitoring Victron devices from a Raspberry Pi - https://updates.victronenergy.com/feeds/venus/release/images/
  +
* Cerbo-S GX Network connected system monitor https://www.victronenergy.com/media/pg/Cerbo-S_GX/en/index-en.html
   
 
== Off The Shelf ALL-in-ONE Systems ==
15W (cont.): 38A-h battery, 190W solar, 10A charge controller
  
 
* [https://www.jackery.com/products/jackery-explorer-160-solarsaga-60w-solar-generator Jackery] offer a range of all-in-one portable battery and charging packs. Can be used with optional solar panels.
 
  +
* [https://www.tyconsystems.com/tyconsolar Tycon Systems]
20W (cont.): 50A-h battery, 250W solar, 10A charge controller
  
  +
* [https://www.anker.com/anker-solix Anker SOLIX Portable Power Station]
 
40W (cont.): 100A-h battery, 500W solar, 20A charge controller
  
   
  +
== Non-penetrating mounts ==
50W (cont.): 125A-h battery, 625W solar, 25A charge controller
  
  +
[https://www.ispsupplies.com/ ISP Supplies] ships from TX, USA
  +
== Project Systems ==
   
 
* [[USSP|Uninterrupted Self Sustaining Solar Power by KJ6DZB (USSP)]]
60W (cont.): 150A-h battery, 750W solar, 30A charge controller
  
  +
* [[Evans Hall Roof|Evans Hall Roof Top]]
  +
* [[Skyline College Solar Node|Skyline College]]

Latest revision as of 21:22, 11 October 2024

Solar Load Estimates

Estimates of what it would take to achieve a year-round solar autonomy, for different continuous loads. The model assumes "typical" SF weather conditions (Link to model).

Note

A good portion of the capacity is just to meet the worst few days of the year, so if you are willing to sacrifice those, the system can be quite a bit smaller and still get you 95%+ annual up time.

Estimates

Below all assume 26V LiFePO4 battery (using 80% of capacity), somewhat conservative, but not a lot of margin:

  • 7W (cont.): 18A-h battery, 90W solar, 5A charge controller
  • 10W (cont.): 25A-h battery, 125W solar, 5A charge controller
  • 15W (cont.): 38A-h battery, 190W solar, 10A charge controller
  • 20W (cont.): 50A-h battery, 250W solar, 10A charge controller
  • 40W (cont.): 100A-h battery, 500W solar, 20A charge controller
  • 50W (cont.): 125A-h battery, 625W solar, 25A charge controller
  • 60W (cont.): 150A-h battery, 750W solar, 30A charge controller

Batteries

Just Batteries

  • Bioenno Power - LiFePO4 batteries which are lightweight but support many more charging cycles compared to normal lithium batteries.
  • TalentCell - LiFePO4 batteries being evaluated at the Sunol Ridge site.

Battery Charge Controllers

Uninterruptible Power Supply Controllers

Solar Charge Controllers

Solar Monitoring

Victron

Off The Shelf ALL-in-ONE Systems

Non-penetrating mounts

ISP Supplies ships from TX, USA

Project Systems

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