Difference between revisions of "Comstar class Commo Satellite"

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{{InfoboxShip
 
{{InfoboxShip
 +
|name    = TBD class Attack Boat
 +
|aerodynam= [[Unstreamlined Hull]]
 +
|agility  = TBD
 +
|alsosee  = TBD
 +
|architect= TBD
 +
|blueprint= No
 +
|canon    = Yes. Published, canon starship design.
 +
|caption  = TBD
 +
|cargo    = TBD
 +
|cost    = TBD
 +
|crew    = TBD
 +
|enlisted = TBD
 +
|EOS      = Still in active service.
 +
|era      = 1105
 +
|footnote = [[Starship]]s are designed with the [[Classic Traveller]] format, using [[High Guard (book)|High Guard]].
 +
|g        = TBD
 +
|hp      = TBD
 +
|hpass    = TBD
 +
|hull    = TBD Hull
 +
|illustration= No
 +
|image    = Wiki Navy.png
 +
|IOC      = Unknown
 +
|jump    = TBD
 +
|lpass    = TBD
 +
|marines  = TBD
 +
|model    = [[Model/TBD]]
 +
|officers = TBD
 +
|origin  = Third Imperium
 +
|QSP      = TBD
 +
|ref      = TBD
 +
|size    = TBD
 +
|size-cat = [[ACS]]
 +
|tdes    = TBD
 +
|TL      = TBD
 +
|type    = TBD
 +
|usp      = TBD
 +
|manufacturer= Various
 +
 
|name    = Comstar class Commo Satellite
 
|name    = Comstar class Commo Satellite
 
|aerodynam= [[Partially Streamlined Hull]]
 
|aerodynam= [[Partially Streamlined Hull]]
|alsosee  =  
+
|alsosee  = [[Satellites]]
 
|architect= Ade Stewart
 
|architect= Ade Stewart
 
|blueprint= No
 
|blueprint= No
|caption  = Unpublished, non-canon fan design.
+
|canon    = No. Unpublished, non-canon fan design.
 +
|caption  = [[Distant Fringe]] object.
 
|cargo    = 0
 
|cargo    = 0
 
|crew    = 0 (automated)
 
|crew    = 0 (automated)
Line 20: Line 59:
 
|lpass    = 0
 
|lpass    = 0
 
|marines  = 0
 
|marines  = 0
|model    = Model/1bis
+
|model    = [[Model/1]] [[bis]]
 
|officers = 0
 
|officers = 0
 
|origin  = Distant Fringe
 
|origin  = Distant Fringe
 
|QSP      = W-1C10
 
|QSP      = W-1C10
|ref      = None
+
|ref      = [[Ade Stewart]]
 
|size    = 5
 
|size    = 5
|tdes    = W
+
|tdes    = WA
 
|TL      = 9
 
|TL      = 9
|type    = Smallcraft
+
|type    = Artificial Satellite
|usp      = W–03011R0–500000–00000-0
+
|usp      = WA–03011R0–400000–00000-0
 
|manufacturer= Various
 
|manufacturer= Various
 
}}
 
}}
The [[Comstar class Commo Satellite]] is a [[satellite]].
+
The [[Comstar class Commo Satellite]] is a [[Satellites|satellite]].
 
* It is a [[civilian ship]] and a [[small craft]].
 
* It is a [[civilian ship]] and a [[small craft]].
 
* Please also see [[AAB]] article: [[Ships of the Distant Fringe]].
 
* Please also see [[AAB]] article: [[Ships of the Distant Fringe]].
 
+
 
== Description ([[Specifications]]) ==
 
== Description ([[Specifications]]) ==
This is a generic class of [[smallcraft]].
+
The Commo Satellite is rugged design that serves in a variety of roles. Most typically it is positioned in a stable orbit around a [[world]] and serves as both a defense-related early warning system and a [[Communications Equipment#Shipboard Communications|communications relay]]. Its onboard [[Ship Sensor Suite|sensor array]] may occasionally be used as a scientific observatory or for survey purposes, typically monitoring weather patterns and [[star|stellar]] conditions. Similar designs have been in use from the time the [[Distant Fringe]] was first settled.
 
 
The Commo Satellite is rugged design that serves in a variety of roles. Most typically it is positioned in a stable orbit around a world and serves as a [[Communications Equipment#Shipboard Communications|communications relay]]. Its onboard [[Ship Sensor Suite|sensor array]] may occasionally be used as a scientific observatory or for survey purposes, typically monitoring weather patterns and stellar conditions. Similar designs have been in use from the time the [[Distant Fringe]] was first settled.
 
 
* The satellite is a [[TL-9]] design.
 
* The satellite is a [[TL-9]] design.
  
Line 46: Line 83:
  
 
=== Basic Ship Characteristics ===
 
=== Basic Ship Characteristics ===
Following the [[Imperial Navy]] and [[IISS]] [[Universal Ship Profile]] and data, additional information is presented in the format shown here. The [[small craft]] factor indicates the number of squadrons (of ten craft) carried on the ship. Tonnage on the universal ship profile is shown in kilotons (thousands of tons) where necessary. {{Page cite|name= Fighting Ships |page= 10 |version= Classic Traveller}}
+
Following the [[Imperial Navy]] and [[IISS]] [[Universal Ship Profile]] and data, additional information is presented in the format shown here. The [[small craft]] factor indicates the number of squadrons (...of ten craft) carried on the ship. [[Ton]]nage on the [[universal ship profile]] is shown in kilotons (thousands of tons) where necessary. {{Page cite|name= Fighting Ships |page= 10 |version= Classic Traveller}}
 
 
 
{| class="wikitable sortable"  
 
{| class="wikitable sortable"  
|+ '''Basic Ship Characteristics''' {{Page cite|name= Fighting Ships |page= 10 |version= Classic Traveller}}
+
!colspan="3"| '''Basic Ship Characteristics''' {{Page cite|name= Fighting Ships |page= 10 |version= Classic Traveller}}
 
|-
 
|-
 
! No.
 
! No.
Line 57: Line 93:
 
| 1.
 
| 1.
 
| [[Ton|Tonnage]]
 
| [[Ton|Tonnage]]
| The Sensor Buoy is constructed using a 5 [[Ton]] [[hull]] built in a generally [[Cylinder Hull|cylindrical]] configuration. The [[hull]] is [[Partially Streamlined Hull|partially streamlined]], giving a relatively limited atmospheric performance that is reliant on its onboard [[Gravity Control Technology|gravitic]] systems: once it is emplaced the satellite rarely leaves its orbital position.
+
| The Commo Satellite is constructed using a 5 [[Ton|dTon]] [[hull]] built in a generally [[Cylinder Hull|cylindrical]] configuration. The [[hull]] is [[Partially Streamlined Hull|partially streamlined]], giving a relatively limited [[Atmosphere|atmospheric]] performance that is reliant on its onboard [[Gravity Control Technology|gravitic]] systems: once it is emplaced the satellite rarely leaves its orbital position.
 
* Individual sections of the satellite are divided by [[Bulkhead Wall|bulkhead wall]]s.
 
* Individual sections of the satellite are divided by [[Bulkhead Wall|bulkhead wall]]s.
 
* Access to the interior can be gained via an access hatch.
 
* Access to the interior can be gained via an access hatch.
* The satellite has sturdy [[Landing Gear|retractable legs]], allowing surface landings.
+
* The satellite has sturdy [[Landing Gear|retractable legs]], allowing it to stand on level surfaces such as decks.
 
|-
 
|-
 
| 2.
 
| 2.
 
| [[Crew]]
 
| [[Crew]]
 
| Total Crew Complement: 0 (the satellite is automated).
 
| Total Crew Complement: 0 (the satellite is automated).
Maintenance technicians may occasionally board the satellite to perform duties such as refueling, routine maintenance, refreshing onboard supplies, applying software updates and hardware upgrades, and downloading collected data.
+
Maintenance [[technician]]s may occasionally board the satellite to perform duties such as refueling, routine maintenance, applying [[software]] updates and hardware upgrades, and downloading collected data.
  
''Accommodations''
+
''Accommodations'' <br>
 +
A cramped operations compartment is the only crew-accessible part of the satellite: no extended accommodations are provided.
  
A cramped operations compartment is the only crew-accessible part of the satellite: no accommodations are provided.
+
The compartment is fitted with [[grav plate]]s and [[inertial compensator]]s and has basic [[Life Support|life support]] and [[Ship Environmental Control|environmental systems]].
* The craft does not have an [[airlock]]: if the access hatch is opened [[Life Support|life support]] integrity is lost.
+
* The satellite does not have an [[airlock]]: if the access hatch is opened [[Life Support|life support]] integrity is lost.
* Accessible areas of the satellite are fitted with [[grav plate]]s and [[inertial compensator]]s. It has basic [[Life Support|life support]] and [[Ship Environmental Control|environmental systems]].
 
 
* There are internal monitoring and security systems throughout the satellite.
 
* There are internal monitoring and security systems throughout the satellite.
 
* There is an [[emergency locker]].
 
* There is an [[emergency locker]].
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| 3.
 
| 3.
 
| [[Maneuver Drive|Performance]]
 
| [[Maneuver Drive|Performance]]
| The satellite mounts a [[Maneuver Drive|Maneuver]]-1 drive and a [[Power Plant]]-1, giving performance of up to 1-G acceleration (though generally the drives are only used for orbital positioning) and producing 0.06 [[Energy Point]]s. The satellite has an agility rating of 1. The internal [[Fuel Tank|fuel tankage]] gives the [[power plant]] 7 [[week]]s duration at full output: the satellite generally operates in a reduced power mode, increasing its endurance exponentially.
+
| The satellite mounts a [[Maneuver Drive|Maneuver]]-1 drive and a [[Power Plant]]-1, giving performance of up to 1-G acceleration (though generally the drives are only used for orbital positioning) and producing 0.06 [[Energy Point]]s. The satellite has an agility rating of 1. The internal [[Fuel Tank|fuel tankage]] gives the [[power plant]] 7 [[week]]s duration at full output: the satellite generally operates in a reduced power mode, drawing additional power from a stellar array, increasing its endurance exponentially.
 
* The engineering section is controlled from the main control room. Access to the machinery can be gained via a sealed hatch.
 
* The engineering section is controlled from the main control room. Access to the machinery can be gained via a sealed hatch.
 +
 +
''Stellar Array''
  
 
The satellite mounts an auxiliary fixed [[Solar Power Plant|stellar collector array]], capable of generating enough [[Megawatt|power]] to independently run the onboard [[Communications Equipment#Shipboard Communications|communications equipment]].
 
The satellite mounts an auxiliary fixed [[Solar Power Plant|stellar collector array]], capable of generating enough [[Megawatt|power]] to independently run the onboard [[Communications Equipment#Shipboard Communications|communications equipment]].
* The array has an area of 27m² and typically generates around 0.7 [[Megawatt|Mw]] (less than 0.003 [[Energy Point]]s), depending on the [[star]] type and satellite's orbital distance from it.
+
* The array has an area of 27m² and typically generates around 0.7 [[Megawatt|Mw]] (less than 0.003 [[Energy Point]]s), depending on the [[star]] type and satellite's orbital distance from it. This trickle of power is enough to maintain powered down onboard [[electronic]]s and the [[Ship Sensor Suite|basic sensor]]s almost indefinitely.
 
* The mountings and equipment for the array have a volume of 0.2 [[Ton|dTon]]s and costs [[MCr]]0.054 to replace.
 
* The mountings and equipment for the array have a volume of 0.2 [[Ton|dTon]]s and costs [[MCr]]0.054 to replace.
* The array is relatively fragile and may collapse if subjected to significant stresses such as acceleration.  
+
* The array is dismountable for ease of transport. The component parts can be disassembled and packed into a 6.25m³ (0.5 [[Ton|dTon]]) storage unit.
 +
* The array is relatively fragile and may collapse if subjected to significant stresses such as acceleration while it is deployed.
 
|-
 
|-
 
| 4.
 
| 4.
 
| [[Ship's Computer|Electronics]]
 
| [[Ship's Computer|Electronics]]
| The operations compartment contains an [[acceleration couch]] and [[Control Panel|control equipment]]. The satellite is run by an autonomous [[Model/1bis Computer]]: there is a backup [[Model/1bis Computer]].
+
| The operations compartment contains an [[acceleration couch]] and [[Control Panel|control equipment]]. The satellite is run by an autonomous [[Model/1 Computer#Model.2F1bis|Model/1bis Computer]]: there is a backup [[Model/1 Computer#Model.2F1bis|Model/1bis Computer]].
 
* There are multiple [[Control Panel|control point]]s throughout the satellite.
 
* There are multiple [[Control Panel|control point]]s throughout the satellite.
 
* The satellite is fitted with [[Communications Equipment#Shipboard Communications|communications equipment]] and a standard [[Ship Sensor Suite|sensor array]].
 
* The satellite is fitted with [[Communications Equipment#Shipboard Communications|communications equipment]] and a standard [[Ship Sensor Suite|sensor array]].
** It is fitted with backup commo system.
+
** It is fitted with a backup commo system.
* It has a transponder unit that can be deactivated on command.
+
* It has a [[Transponder|transponder]] unit that can be deactivated on command.
 
|-
 
|-
 
| 5.
 
| 5.
Line 113: Line 152:
 
| 9.
 
| 9.
 
| [[Fuel Purification Plant|Fuel Treatment]]
 
| [[Fuel Purification Plant|Fuel Treatment]]
| The satellite has internal fuel tankage of 1 [[Ton]].
+
| The satellite has internal [[Fuel Tank|fuel tankage]] of 1 [[Ton]].
 
* It is not equipped with [[fuel scoop]]s or [[fuel purification]] equipment.
 
* It is not equipped with [[fuel scoop]]s or [[fuel purification]] equipment.
 
|-
 
|-
Line 138: Line 177:
  
 
== History & Background ([[Dossier]]) ==
 
== History & Background ([[Dossier]]) ==
The Commo Satellite serves as a component in a [[Satellite Communication Network]]. The autonomous onboard [[Model/1 Computer#Model.2F1bis|computer]] systems have a good processing capacity but almost no storage, acting primarily as relays for [[world|planetary]] [[Communication Technology|communications]].
+
The Commo Satellite serves as a component in a [[Satellite Communication Network]]. The autonomous onboard [[Model/1 Computer#Model.2F1bis|computer]] systems have a good processing capacity but almost no storage, acting primarily as relays for [[world|planetary]] [[Communication Technology|communications]]. Technically, the satellite is a [[small craft]]: its ability to function as such is very limited.
 
* Commo Satellites are generally deployed in small groups into geosynchronous orbits around a [[world]], relaying data between each orbital unit and the surface.
 
* Commo Satellites are generally deployed in small groups into geosynchronous orbits around a [[world]], relaying data between each orbital unit and the surface.
  
Line 149: Line 188:
  
 
=== Selected Variant Types & Classes ===
 
=== Selected Variant Types & Classes ===
''[[Satellites]]:''
+
''[[Satellites]]'' – ''[[Space Station]]s:''
* [[Orbital Station]]
+
* [[Type W class Orbital Facility]]
** ''Comstar'' class Commo Satellite
+
** [[Anchorage class Orbital Station|''Anchorage'' class Orbital Station]]
 +
** [[Comstar class Commo Satellite|''Comstar'' class Commo Satellite]]
 +
** [[Gunsan class Orbital Dockyard|''Gunsan'' class Orbital Dockyard]]
 +
** [[Harbor class Orbital Station|''Harbor'' class Orbital Station]]
 
** [[Sanctuary class Sensor Buoy|''Sanctuary'' class Sensor Buoy]]
 
** [[Sanctuary class Sensor Buoy|''Sanctuary'' class Sensor Buoy]]
 
** [[Sentinel class Missile Platform|''Sentinel'' class Missile Platform]]
 
** [[Sentinel class Missile Platform|''Sentinel'' class Missile Platform]]
Line 162: Line 204:
 
|S1= {{CT}} Book 5 [[High_Guard_(book)|"High Guard",]] GDW, 1980. (Design protocols used)
 
|S1= {{CT}} Book 5 [[High_Guard_(book)|"High Guard",]] GDW, 1980. (Design protocols used)
 
|S2= {{TNE}} ''[[Fire, Fusion, & Steel]]'', ([[Game Designers Workshop]], 1994), 65. (Design protocols used)
 
|S2= {{TNE}} ''[[Fire, Fusion, & Steel]]'', ([[Game Designers Workshop]], 1994), 65. (Design protocols used)
|S3= Author & Contributor: Lord (Marquis) and Master Scout Emeritus [[User: Alagoric|Adie Alegoric Stewart]] of the [[IISS]]
+
|S3= Author & Contributor: Lord (Marquis) and Master Scout Emeritus [[Adie Alegoric Stewart]] of the [[IISS]]
|S4= Author & Contributor: Lord (Marquis) and Master of Sophontology [[User:Maksim-Smelchak|Maksim-Smelchak]] of the [[Ministry of Science]]
+
|S4= Author & Contributor: Lord (Marquis) and Master of Sophontology [[Maksim-Smelchak]] of the [[Ministry of Science]]
 
}}
 
}}
  

Revision as of 14:07, 10 June 2019

Comstar class Commo Satellite
Distant Fringe Logo.gif
Distant Fringe object.
Type: WA Artificial Satellite
Category [[ACS]]
Size 5 Tons
Hull Configuration [[Cylinder Hull]]
Streamlining Partially Streamlined Hull
Tech Level TL–9
Engineering
Computer Model/1 bis
Jump J-0
Maneuver 1 G
Armaments
Hardpoints 1
Accommodations
Staterooms 0
Personnel
Crew 0 (automated)
High/Mid Passengers 0
Payload
Cargo 0 Tons
Fuel tank 0 Tons
Construction
Origin Distant Fringe
Year Operational No information yet available.
End of Service Still in active service.
Price
Cost MCr10.235 (base)
MCr8.188 (qty)
Architect fee MCrAde Stewart
Statistics
Quick Ship Profile W-1C10
Images
Blueprint No
Illustration No
Source
Also see Satellites
Canon Published, fan design
Era 1105
Reference Ade Stewart
This spacecraft is designed with the Classic Traveller format, using Book 5 High Guard

The Comstar class Commo Satellite is a satellite.

Description (Specifications)

The Commo Satellite is rugged design that serves in a variety of roles. Most typically it is positioned in a stable orbit around a world and serves as both a defense-related early warning system and a communications relay. Its onboard sensor array may occasionally be used as a scientific observatory or for survey purposes, typically monitoring weather patterns and stellar conditions. Similar designs have been in use from the time the Distant Fringe was first settled.

  • The satellite is a TL-9 design.

Image Repository

J0 5dT Commo Satellite.jpg
A Comstar class Commo Satellite.

Basic Ship Characteristics

Following the Imperial Navy and IISS Universal Ship Profile and data, additional information is presented in the format shown here. The small craft factor indicates the number of squadrons (...of ten craft) carried on the ship. Tonnage on the universal ship profile is shown in kilotons (thousands of tons) where necessary. [1]

Basic Ship Characteristics [2]
No. Category Remarks
1. Tonnage The Commo Satellite is constructed using a 5 dTon hull built in a generally cylindrical configuration. The hull is partially streamlined, giving a relatively limited atmospheric performance that is reliant on its onboard gravitic systems: once it is emplaced the satellite rarely leaves its orbital position.
  • Individual sections of the satellite are divided by bulkhead walls.
  • Access to the interior can be gained via an access hatch.
  • The satellite has sturdy retractable legs, allowing it to stand on level surfaces such as decks.
2. Crew Total Crew Complement: 0 (the satellite is automated).

Maintenance technicians may occasionally board the satellite to perform duties such as refueling, routine maintenance, applying software updates and hardware upgrades, and downloading collected data.

Accommodations
A cramped operations compartment is the only crew-accessible part of the satellite: no extended accommodations are provided.

The compartment is fitted with grav plates and inertial compensators and has basic life support and environmental systems.

  • The satellite does not have an airlock: if the access hatch is opened life support integrity is lost.
  • There are internal monitoring and security systems throughout the satellite.
  • There is an emergency locker.
3. Performance The satellite mounts a Maneuver-1 drive and a Power Plant-1, giving performance of up to 1-G acceleration (though generally the drives are only used for orbital positioning) and producing 0.06 Energy Points. The satellite has an agility rating of 1. The internal fuel tankage gives the power plant 7 weeks duration at full output: the satellite generally operates in a reduced power mode, drawing additional power from a stellar array, increasing its endurance exponentially.
  • The engineering section is controlled from the main control room. Access to the machinery can be gained via a sealed hatch.

Stellar Array

The satellite mounts an auxiliary fixed stellar collector array, capable of generating enough power to independently run the onboard communications equipment.

  • The array has an area of 27m² and typically generates around 0.7 Mw (less than 0.003 Energy Points), depending on the star type and satellite's orbital distance from it. This trickle of power is enough to maintain powered down onboard electronics and the basic sensors almost indefinitely.
  • The mountings and equipment for the array have a volume of 0.2 dTons and costs MCr0.054 to replace.
  • The array is dismountable for ease of transport. The component parts can be disassembled and packed into a 6.25m³ (0.5 dTon) storage unit.
  • The array is relatively fragile and may collapse if subjected to significant stresses such as acceleration while it is deployed.
4. Electronics The operations compartment contains an acceleration couch and control equipment. The satellite is run by an autonomous Model/1bis Computer: there is a backup Model/1bis Computer.
5. Hardpoints 1 hardpoint.

The satellite has no inherent capacity to mount weapons systems.

6. Armament The Commo Satellite is unarmed.
7. Defenses The hull is plated and structurally reinforced, giving it an armor rating of 4.

The satellite is not fitted with screens or other passive defensive systems.

8. Craft The satellite carries no subcraft.
9. Fuel Treatment The satellite has internal fuel tankage of 1 Ton.
10. Cost The basic cost of the satellite is MCr10.029.
  • The satellite is a standard design. Detailed architectural plans are widely available and no design fee is chargeable.
  • If multiple examples of the design are ordered all of the satellites in the production run qualify for a 20% discount, which reduces the price of each unit to MCr8.024.
11. Construction Time 24 weeks (5.5 months) as standard.
  • Build times can be reduced by mass production and the efficiencies such processes generate, by increased financing, and by allotting additional yard resources and facilities to the construction contract.
12. Comments The satellite has no cargo capacity.

The Satellite is operated by an autonomous Model/1bis Computer, with another Model/1bis Computer serving as a backup and acting as additional processing capacity.

  • The satellite is capable of locking itself down in an emergency.
  • The operations compartment, engineering section and control panels may not be accessed without the appropriate protocols and security clearances.

History & Background (Dossier)

The Commo Satellite serves as a component in a Satellite Communication Network. The autonomous onboard computer systems have a good processing capacity but almost no storage, acting primarily as relays for planetary communications. Technically, the satellite is a small craft: its ability to function as such is very limited.

  • Commo Satellites are generally deployed in small groups into geosynchronous orbits around a world, relaying data between each orbital unit and the surface.

The Commo Satellite is representative of designs used throughout the Distant Fringe. It is rugged and durable giving it a long service life: the tough hulls are often stripped and refitted with upgraded electronics. Large numbers of variants exist, particularly with regard to the allotted weapons systems and onboard electronics.

Class Naming Practice/s & Peculiarities

A number of companies manufacture satellites equivalent to the Comstar class. They vary in hull shape and internal layout but all share the same basic design and all have very similar capabilities and performance characteristics.

  • Each variant class is named by the company that produces it: these organizations generally draw on approved naming protocols. It is not uncommon for a historical class name to be reused.
  • Individual examples of the class are issued specific serial numbers and transponder codes.

Selected Variant Types & Classes

SatellitesSpace Stations:

References & Contributors (Sources)

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