Actions

Difference between revisions of "Portable Solar Panel"

From Unofficial Stationeers Wiki

(Fixed presentation)
m (Category:Solar power)
 
(4 intermediate revisions by 3 users not shown)
Line 1: Line 1:
 +
[[Category:Solar power]]
 
= Portable Solar Panel = <!--T:1-->
 
= Portable Solar Panel = <!--T:1-->
  
 
{{Itembox
 
{{Itembox
 
  | name        = Portable Solar Panel
 
  | name        = Portable Solar Panel
  | image      = [[File:Portable Solar Panel.png|thumb|Portable Solar Panel ]]
+
  | image      = [[File:PortableSolarPanel.png]] [[File:Portable Solar Panel.png|thumb|Portable Solar Panel]]
  | createdwith = [[Electronics Printer ]]
+
  | createdwith = [[Electronics Printer]]
 
  | cost        = 5g [[Iron]], 3g [[Gold]], 10g [[Copper]]
 
  | cost        = 5g [[Iron]], 3g [[Gold]], 10g [[Copper]]
 
  | stacks      = 1
 
  | stacks      = 1
Line 10: Line 11:
 
 
 
= Description = <!--T:1-->
 
= Description = <!--T:1-->
This small, self deploying solar panel has one battery slot (refer to picture) and cannot have the solar panels tuned to the sun.
+
This small, self-deploying solar panel has one battery slot (refer to picture) and cannot have the solar panels tuned to the sun.
Therefore this little device should be used for long excursions where recharges may be necessary.
+
Therefore, this little device should be used for long excursions where recharges may be necessary.
This should be used as a emergency power device and not as a '''Main''' Source of power
+
This should be used as an emergency power device and not as a '''Main''' Source of power
  
  
  
==== Information to know====
+
== Information to know==
 
* Visibility is Equal to Watts Produced (50 visibility Watts 50)   
 
* Visibility is Equal to Watts Produced (50 visibility Watts 50)   
 
* Mainly used for tool battery recharges and maybe Emergency suit charges
 
* Mainly used for tool battery recharges and maybe Emergency suit charges
Line 22: Line 23:
  
 
= Statistics = <!--T:2-->
 
= Statistics = <!--T:2-->
 +
(At 100 watts)
 
*[[Battery Cell (Small)|Small Battery cells]] charged in 3 minutes and 52 seconds
 
*[[Battery Cell (Small)|Small Battery cells]] charged in 3 minutes and 52 seconds
 
*[[Battery Cell (Large)|Large Battery cells]] charged in 28 minutes and 16 seconds (extrapolated)
 
*[[Battery Cell (Large)|Large Battery cells]] charged in 28 minutes and 16 seconds (extrapolated)
*[[Battery Cell (Nuclear)|Nuclear Battery cells]] charged in 225 minutes and 28 seconds or 4 hours 15 minutes and 28 seconds (also extrapolated)
+
*[[Battery Cell (Nuclear)|Nuclear Battery cells]] charged in 225 minutes and 28 seconds or 4 hours 15 minutes and 28 seconds  
  
 
Justification: A large battery has 288 000 J of capacity, which when divided by the small cell's capacity of 36000 J we obtain 8. That number is then multiplied to the small battery's charging time to obtain the larger batteries' charging time.
 
Justification: A large battery has 288 000 J of capacity, which when divided by the small cell's capacity of 36000 J we obtain 8. That number is then multiplied to the small battery's charging time to obtain the larger batteries' charging time.

Latest revision as of 08:19, 4 May 2024

Portable Solar Panel[edit]

Portable Solar Panel
PortableSolarPanel.png
Portable Solar Panel
Properties
Stacks No
Recipe
Created With Electronics Printer
Cost 5g Iron, 3g Gold, 10g Copper


Description[edit]

This small, self-deploying solar panel has one battery slot (refer to picture) and cannot have the solar panels tuned to the sun. Therefore, this little device should be used for long excursions where recharges may be necessary. This should be used as an emergency power device and not as a Main Source of power


Information to know[edit]

  • Visibility is Equal to Watts Produced (50 visibility Watts 50)
  • Mainly used for tool battery recharges and maybe Emergency suit charges
  • Works best with Small Battery cells

Statistics[edit]

(At 100 watts)

Justification: A large battery has 288 000 J of capacity, which when divided by the small cell's capacity of 36000 J we obtain 8. That number is then multiplied to the small battery's charging time to obtain the larger batteries' charging time.