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Solar Panel

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Revision as of 14:41, 27 April 2024 by 82.131.13.20 (talk) (Electronics Printer (Tier One))
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Kit (Solar Panel Basic)
ItemKitSolarPanel.png
Constructing Options Solar Panel (Flat), Solar Panel (Angled)
Properties
Stacks Yes (5)
Recipe
Created With Electronics Printer
Cost 10g Iron, 2g Gold, 10g Copper
Logic
Item Hash 844961456
Item Name ItemKitSolarPanelBasic


Kit (Solar Panel)
ItemKitSolarPanel.png
Constructing Options Solar Panel (Dual), Solar Panel
Properties
Stacks Yes (5)
Recipe
Created With Electronics Printer
Cost 5g Gold, 20g Copper, 15g Steel
Logic
Item Hash -1924492105
Item Name ItemKitSolarPanel


Kit (Solar Panel Basic Heavy)
ItemKitSolarPanel.png
Constructing Options Solar Panel (Heavy Flat), Solar Panel (Heavy Angled)
Properties
Stacks Yes (5)
Recipe
Created With Electronics Printer (Tier Two)
Cost 10g Copper, 10g Steel, 2g Electrum, 10g Invar
Logic
Item Hash -528695432
Item Name x


Kit (Solar Panel Heavy)
ItemKitSolarPanel.png
Constructing Options Solar Panel (Heavy Dual), Solar Panel (Heavy)
Properties
Stacks Yes (5)
Recipe
Created With Electronics Printer (Tier Two)
Cost 20g Copper, 10g Steel, 5g Electrum, 15g Astroloy
Logic
Item Hash -364868685
Item Name x
Solar Panel
Operation
Power Usage 0W to 500W generated
Prefab Hash -2045627372
Prefab Name StructureSolarPanel
Construction
Placed with Kit (Solar Panel)
Placed on Large Grid
Stage 1
Next Stage Construction
Constructed with item Glass Sheet
Deconstruction
Deconstructed with Hand Drill
Item received Kit (Solar Panel)
Stage 2
Deconstruction
Deconstructed with Crowbar
Item received Glass Sheet


Solar Panel (Dual)
Operation
Power Usage 0W to 500W generated
Prefab Hash -539224550
Prefab Name StructureSolarPanelDual
Construction
Placed with Kit (Solar Panel)
Placed on Large Grid
Stage 1
Next Stage Construction
Constructed with item Glass Sheet
Deconstruction
Deconstructed with Hand Drill
Item received Kit (Solar Panel)
Stage 2
Deconstruction
Deconstructed with Crowbar
Item received Glass Sheet



Description

The Solar Panel generates power by absorbing sunlight, depending on solar intensity, up to 500W per panel on the moon. Can be manually rotated using a Wrench. Can be built in two configurations, one with opposite side split power/data ports, or two with same side combined power/data ports.

Data ports can interact with Daylight Sensors and logic i/o writers or batch writers to automatically rotate the panel to face the sun.

At the extreme attitude settings (0/100) the solar panel still faces 15 degrees above the horizon. Thus the total arc of vertical rotation is only 150 degrees from input values 0-100.

Can also be destroyed by storms, or left with very little health. Best course of action is to remove the solar panels when you are notified of a storm by a Weather Station, Which allows you to replace them once the storm is over.

They can be repaired with Duct Tape, or by dissembling them and reassembling them. You could even cover them with windows to protect them from storms at the cost of some efficiency of the panels themselves being lost. And Heavy Solar Panels are a more expensive version that do not take storm damage but it is debatable if its worth making the tier 2 metal Astroloy to prevent storm damage whilst retaining maximum efficiency.

Types of Solar Panel Kit

Printed with the Electronics Printer (Tier One)

These are useful early on when resources are limited.

  • Kit (Solar Panel Basic) don't have logic inputs so they can't be set up to automatically track the sun and spend most of their time at reduced power output.
  • Kit (Solar Panels) have logic inputs and can be programmed to track the sun for optimal power output.

Printed with the Electronics Printer (Tier Two)

These are protected against storm damage, but more expensive. Note that not all planets have storms.

  • Kit (Solar Panel Basic Heavy) don't have logic inputs.
  • Kit (Solar Panel Heavy) have logic inputs.

Positioning

Pay close attention to the positioning of your solar panel since their automation will depend heavily on it. Most user-made scripts and guides orient the panels with the data port facing sunset and the power port facing sunrise.

solar panel horizontal rotation

Notes

After placement be sure to install one Glass Sheet to make it functional.

See Sensors and Solar_Logic_Circuits_Guide for panel automation using logic circuits.

Power output of a single Solar Panel on different planets

World Solar Energy  % of Earth Solar Angle
Moon 500W 100%
Mars 455W 91%
Europa 210W 42% 32°
Mimas 90W 18% 126°
Asteroid belt 500W 100%
Loulan 455W 91%
Vulcan 750W 150% 48°
Venus 500W 100%


Data Network Properties

These are all Data Network properties of this device.

Data Parameters

These are all parameters that can be written with a Logic Writer, Batch Writer, or Integrated Circuit (IC10).


Parameter Name Data Type Description
Horizontal Degrees Set the horizontal rotation of the Solar Panel (clockwise, 0-360°, data port is at 270°)
Vertical Degrees Sets the vertical angle of the Solar Panel (As of at least version 0.2.3263.16264, solar panels accept input in degrees above the horizon instead of in percent, so the solar panels travel between inputs of 15 and 165, with 90 being straight up. Previously, this was supposedly a Percentage "accepting 0-100% which translates to 15°-165°, 50%=90° =zenith")
On Boolean Turns the solar panel on or off

Data Outputs

These are all parameters, that can be read with a Logic Reader or a Slot Reader. The outputs are listed in the order a Logic Reader's "VAR" setting cycles through them.

Output Name Data Type Description
Charge W Returns the power generated in Watts
Horizontal degrees Returns the horizontal rotation of the Solar Panel
Vertical  % Returns the vertical angle of the Solar Panel
Maximum W Maximum possible power for this planet
Ratio How close to maximum current performance is, 1.0 means panel is perfectly directed and unobstructed
On Boolean Returns the on/off state of the solar panel