Sensor: Difference between revisions

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m (→‎Sensor Categories: Renamed to Sensor Range Categories.)
(Added headlines and rewrote some text. Added Range Categories into a table.)
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{{HaxusNeeded|Calculations for new spacecraft volume to sensor range is needed.}}
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The sensor is for remote sensing of equipment and scanning of planets. Sensors require [[TL]]2, and also require a [[Sensor Station]].  
Sensors are used to detect objects beyond visual range and assisting other systems with targeting. Such as detecting [[spacecraft]] on the other side of a [[Solar_system|solar system]] or targeting of [[Weapon_Bay|weapon bay]]s and other systems.


==Sensor Size==
Each sensor unit increases the range which a [[spacecraft]] can detect contacts by about 6km. The sensor station has about 6km range as well.
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|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.
===Useful Numbers===
* 3-5 million meter range is generally enough to cover an entire single star system
* 7-8 million meter range is generally enough to cover an entire binary star systems
* 12-14 million meter range is generally enough to cover an entire trinary systems


===Sensor Range Categories===
==System Survey==
* Short Range is less than one lunar orbit. 12,954m
When crew is ordered to do a [[System_Survey|system survey]], the time required to do so will depend on the number of celestial bodies in the [[Solar_System|solar system]], the range category of the sensors, and the rank of the sensor station [[Crew|operator]].
* 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===
An [[avatar]] can survey a solar system instantly by using the [[Sensor_Station|sensor console]] to display the detail of any celestial body in the solar system.
* 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
{| class="wikitable"
* 12-14 million m range is generally enough to cover an entire trinary systems
|+ Sensor Range Categories
|-
! Category
! Range Required
! Remark
|-
| Short Range
| 12,954m
| Less than one lunar orbit
|-
| Orbital Range
| 12,954m
| More than one lunar orbit
|-
| Planetary Range
| 91,449m
| More than 1/2 planetary orbit
|-
| System Range
| 2,743,200m
| More than 15 planetary orbits
|}


[[Category:Spacecraft_Systems]]
[[Category:Spacecraft_Systems]]
[[Category:Spacecraft_Modules]]
[[Category:Spacecraft_Modules]]
[[Category:Spacecraft_Rooms]]
[[Category:Spacecraft_Rooms]]

Revision as of 09:08, 1 April 2017

This section has details missing or obscure mechanics that need clarification by Haxus.
Description: Calculations for new spacecraft volume to sensor range is needed.
If you know the answer, please edit this page or state it on the talk page!

Template:OldSpacecraft


Module
Sensor
Sensor_Module.png


Sensors are used to detect objects beyond visual range and assisting other systems with targeting. Such as detecting spacecraft on the other side of a solar system or targeting of weapon bays and other systems.

Sensor Size

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

Useful Numbers

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

System Survey

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 solar system, the range category of the sensors, and the rank of the sensor station operator.

An avatar can survey a solar system instantly by using the sensor console to display the detail of any celestial body in the solar system.

Sensor Range Categories
Category Range Required Remark
Short Range 12,954m Less than one lunar orbit
Orbital Range 12,954m More than one lunar orbit
Planetary Range 91,449m More than 1/2 planetary orbit
System Range 2,743,200m More than 15 planetary orbits