Difference between revisions of "Cargo lock beam"
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{{Otherlang2 | {{Otherlang2 | ||
|de=Cargo_beam:de | |de=Cargo_beam:de | ||
|fr=Cargo_beam | |fr=Cargo_beam/fr | ||
|zh-cn=货运光束 | |zh-cn=货运光束 | ||
|ru=Грузовой луч | |ru=Грузовой луч | ||
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|type=Cargo device | |type=Cargo device | ||
|function=Towing objects | |function=Towing objects | ||
|size= 72 × 72 × 12 cm | |size= 72 × 72 × 12 cm | ||
|mass=546.35 | |mass=546.35 | ||
|volume=54.91 | |volume=54.91 | ||
|corrosionResistance=400 | |corrosionResistance=400 | ||
|primaryMaterial=Bastium | |||
}} | }} | ||
|{{SB Infobox Device IO | |{{SB Infobox Device IO | ||
|electricIn=5 + (0.002) | |electricIn=5 + (0.002 ⋅ 𝑥 kg) e/s | ||
|electricOut= | |electricOut= | ||
|coolantIn= | |coolantIn= | ||
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|ajatite= | |ajatite= | ||
|arkanium= | |arkanium= | ||
|bastium= | |bastium=45% | ||
|charodium= | |charodium= | ||
|corazium= | |corazium= | ||
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|haderite= | |haderite= | ||
|ice= | |ice= | ||
|ilmatrium= | |ilmatrium= | ||
|karnite= | |karnite= | ||
|kutonium= | |kutonium=30% | ||
|lukium= | |lukium= | ||
|merkerium= | |merkerium= | ||
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|oninum= | |oninum= | ||
|surtrite= | |surtrite= | ||
|tengium= | |tengium= | ||
|ukonium= | |ukonium= | ||
|valkite= | |valkite= | ||
|vokarium= | |vokarium=25% | ||
|xhalium= | |xhalium= | ||
}} | }} | ||
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== Basic information == | == Basic information == | ||
In order for the cargo beam to lock onto objects and to be able to lift or otherwise move them, at least three beams should target the desired object from different directions.The beams should simultaneously hit the object from perpendicular angles. For example: If the object is a cube, the cargo beams should target the cube from at least three different sides. | In order for the cargo beam to lock onto objects and to be able to lift or otherwise move them, at least three beams should target the desired object from different directions.The beams should simultaneously hit the object from perpendicular angles. For example: If the object is a cube, the cargo beams should target the cube from at least three different sides. Cargo lock beams are currently unable to lock on to any player built object that includes thrusters (is considered a ship). | ||
Power consumption of the cargo lock beam is variable, and changes significantly depending on the mass of the object being towed. They require a base electricity input of 5 e/s, plus an additional 0.002 e/s per kilogram of mass of the object being towed. It is important to remember that the mass applied to each cargo-lock beam (and thus, how much electricity each requires) is equal to the object mass divided by the number of cargo lock beams applied to it. | Power consumption of the cargo lock beam is variable, and changes significantly depending on the mass of the object being towed. They require a base electricity input of 5 e/s, plus an additional 0.002 e/s per kilogram of mass of the object being towed. It is important to remember that the mass applied to each cargo-lock beam (and thus, how much electricity each requires) is equal to the object mass divided by the number of cargo lock beams applied to it. | ||
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* [[Data networks|Data networks]] | * [[Data networks|Data networks]] | ||
* [[YOLOL|YOLOL]] | * [[YOLOL|YOLOL]] | ||
[[Category:Devices and machines|Cargo beam]] | [[Category:Devices and machines|Cargo beam]] |
Latest revision as of 16:30, 17 September 2022
The cargo lock beam emits a laser which locks onto any object on its trajectory, and is most commonly used in spaceships designed for cargo transportation, and especially asteroid haulers. For safety reasons, the locking laser does not affect endoskeletons.
Basic information
In order for the cargo beam to lock onto objects and to be able to lift or otherwise move them, at least three beams should target the desired object from different directions.The beams should simultaneously hit the object from perpendicular angles. For example: If the object is a cube, the cargo beams should target the cube from at least three different sides. Cargo lock beams are currently unable to lock on to any player built object that includes thrusters (is considered a ship).
Power consumption of the cargo lock beam is variable, and changes significantly depending on the mass of the object being towed. They require a base electricity input of 5 e/s, plus an additional 0.002 e/s per kilogram of mass of the object being towed. It is important to remember that the mass applied to each cargo-lock beam (and thus, how much electricity each requires) is equal to the object mass divided by the number of cargo lock beams applied to it.
For example: a 1,500 kg object being towed by 3 cargo lock beams:
5 + ((1,500 / 3) ⋅ 0.002) = 6 e/s
.. will consume 6 e/s per beam.
Device fields
YOLOL field | description | range |
---|---|---|
CargoBeamOnState | Dictates whether the beam is on or off. 0 = off, any other value = on. | |
CargoBeamSearchLength | The maximum distance from where the beam can lock onto objects. Measured in meters. | 0 - 1000 |
CargoBeamStatus | The current status of the beam, 0 = off or unlocked, 1 = touching object but unlocked, 2 = locked | 0 - 2 |
To learn more about the usage of fields, consult these wiki pages: