Sensor: Difference between revisions

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m (Added some links and a few notes.)
m (OldSpacecraft Template)
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{{OldSpacecraft}}
{{Spacecraft_Module
{{Spacecraft_Module
| Name = Sensor
| Name = Sensor
| Picture = Sensor_Module.png
| Picture = Sensor_Module.png
| Placement = Sensor Room
| TL = 2
| TL = 2
| Mass = 450kg
| Mass = 450kg
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* [[Electricity]]
* [[Electricity]]
* [[Glue Gun]]
* [[Glue Gun]]
* [[Soldering Iron]]
* [[Wrench]]
}}{{Spacecraft_Room
| Name = Sensor Room
| Picture = Sensor_Room.png
| Materials =
* 1 [[Electronic Part]]s
* 1 [[Mechanical Part]]s
* 11 [[Metal]]
* 2 [[Plastic]]
| Tools =
* [[Electricity]]
* [[Glue Gun]]
* [[Hammer]]
* [[Soldering Iron]]
* [[Soldering Iron]]
* [[Wrench]]
* [[Wrench]]

Revision as of 20:39, 14 February 2017

Template:OldSpacecraft


Module
Sensor
Sensor_Module.png


The sensor room is for remote sensing equipment and controls. This is where sensors and the sensor station can be place, which require TL 2.

Each sensor unit increases the range which a spacecraft can detect contacts by about 6km. The sensor station has about 6km range as well.

When crew is ordered to do a system survey, the time required to do so will depend on the number of celestial bodies in the system, the size category of the sensors, and the rank of the sensor station operator. An avatar can survey a system instantly by using the sensor console to display the detail of any celestial body in the system.

Sensor Categories

  • Short Range is less than one lunar orbit. 12,954m
  • Orbital Range is more than one lunar orbit. 12,954m
  • Planetary Range is more than 1/2 planetary orbit. 91,449m
  • System Range is more than 15 planetary orbits. 2,743,200m

Useful Numbers

  • 3-5 million m range is generally enough to cover an entire single star system
  • 7-8 million m range is generally enough to cover an entire binary star systems
  • 12-14 million m range is generally enough to cover an entire trinary systems