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====== Equipment ======
This category contains the various components you can install on your ships.


Most ships can be retrofitted with a variety of different equipment to suit various flight styles, roles, and budgets. The standard loadout for most new Ringdivers is a second-hand Rosatom-Antonoff K37 TNTRL mining barge outfitted with a mass driver for cracking asteroids. Many pilots will soon find this arrangement lacking, either in agility, endurance, reliability, asteroid cracking power, or any of the various other parameters they find themselves optimizing - the K37 might be robust but modern technology has come a long way, and once you start fitting some newer equipment you'll find your revenue climbing very, very quickly!
See also: [[Equipment]]


Thanks to a fairly high degree of convergent evolution, many systems from many manufacturers can be installed into most ships without much trouble. Like the hot-rodders of Earth's history, engineers today can transplant maneuvering thrusters, turbogenerators, even avionics systems and autopilots from more modern ships into the old K37. Recently, Enceladus' engineers have even been working on retrofitting entire nuclear cores and main drive systems, though the highly integrated nature of these systems have prevented such swaps from being simple.
== Hardpoint Equipment ==
{| class="wikitable sortable"
!Name
!Cost (E$)
!Consumes
!Notes
!Slot(s)
|-
|External Impact Absorber
|4,000
|N/A
|Can be released, remaining cradle can be used to collect other objects
|Left and right low-stress hardpoints
|-
|EMD-14 mass driver
|10,000
|Mass driver ammunition, electrical power
|
|High-stress, spinal & low-stress hardpoints
|-
|MPI Railgun MkI
|20,000
|Mass driver ammunition, electrical power
|
|High-stress, spinal & low-stress hardpoints
|-
|ERFMD-17 mass driver
|30,000
|Mass driver ammunition, electrical power
|
|High-stress, spinal & low-stress hardpoints
|-
|AEMD-14 mass driver
|32,000
|Mass driver ammunition, electrical power
|
|High-stress, spinal & low-stress hardpoints
|-
|B8 Claim Beacon
|43,000
|N/A
|Can be released, allows creation of a claim for 1,000 E$ per day active
|Left and right low-stress hardpoints, front docking bays
|-
|AR-1500 Manipulator
|56,000
|Electrical power
|Can be tuned to grab different types of object
|High-stress hardpoints
|-
|MWG microwave emitter
|70,000
|Electrical power
|
|High-stress, spinal & low-stress hardpoints
|-
|THI Cargo Container
|74,000
|N/A
|Can be released, stores processed minerals (requires MPU) of up to 15,000 kg of each mineral
|Left and right low-stress hardpoints, docking bays
|-
|THI Monocargo Container
|111,000
|N/A
|Can be released, stores processed minerals (requires MPU) of up to 90,000 kg of a specific mineral
|Left and right low-stress hardpoints, docking bays
|-
|NT Mining Companion
|115,000
|N/A
|Can be released, once released mines rocks and collects ore chunks
|Left and right low-stress hardpoints, docking bays
|-
|EINAT Kzinti Lesson MkII
|100,000
|Propellant, thermal power, electrical power
|
|High-stress & spinal hardpoints
|-
|NDPT-4205
|135,000
|Mass driver ammo, electrical power
|Unlocked through Obonto Habitats, requires holding down the trigger to fire
|High-stress, spinal, and low-stress hardpoints, docking bays
|-
|CL-150 mining laser
|150,000
|Electrical power
|
|High-stress, spinal & low-stress hardpoints
|-
|Tetsuo HMX-2000l
|160,000
|Processed iron OR mass driver ammunition, electrical power, thermal power
|Processed iron (if any stored on ship) is consumed before mass driver ammo
|High-stress, spinal & low-stress hardpoints
|-
|Point Defense Microwave Generator
|180,000
|Electrical power
|
|High-stress, spinal, and low-stress hardpoints, docking bays
|-
|CL-200AP pulse mining laser
|220,000
|Electrical power
|
|High-stress, spinal & low-stress hardpoints
|-
|MPI Tug drones
|250,000
|Nanodrone components, electrical power
|Drones stop any ore chunk or lifepod that passes it's filter relative to the rings
|High-stress, spinal & low-stress hardpoints, docking bays and drone mounts
|-
|SPC Gungnir
|270,000
|Electrical power
|Charges up (30 secs for full charge) and releases for a burst of protons that deals extreme damage of all 3 types (thermal, EMP, kinetic). Positively charges struck objects
|Left and right low-stress hardpoints
|-
|NANI
|300,000
|Propellant, thermal power, electrical power
|
|High-stress hardpoints
|-
|CL-600P pulse mining laser
|320,000
|Electrical power
|
|High-stress, spinal & low-stress hardpoints
|-
|MLF Haul Drones
|350,000
|Nanodrone components, electrical power
|Drones stop any ore chunk or lifepod that passes it's filter relative to the ship, proceeds to bring it in front of the ship, and (if excavator is open) brings it inside the cargo bay
|High-stress, spinal & low-stress hardpoints, docking bays and drone mounts
|-
|OME Maintenance drones
|400,000
|Nanodrone components, electrical power
|Repairs any and all damaged equipment up to 65% total durability
|High-stress, spinal & low-stress hardpoints, docking bays and drone mounts
|}


While the range of engines and reactors and fuel pumps and radars and drones and armour and generators and flight computers available to the wider market around Sol is truly dizzying, the gear you'll tend to find available and installed on mining ships here in The Rings is a bit more limited. This is mostly due to practicality - there is little use for ion engines, solar panels or missile launchers here, though legal restrictions are also a factor - some of the most dangerous and interesting technology is kept away from miners by licensing and insurance requirements.
== Consumables ==
{| class="wikitable sortable"
!Name
!Storage Amount (kg)
!Delivery Speed (kg/s)
!Cost (E$)
!Notes
!Type
|-
|Projectile magazine
|1,000
|100
|5,000
|
|Mass Driver Ammunition
|-
|Dual projectile magazine
|2,000
|200
|10,000
|
|Mass Driver Ammunition
|-
|Heavy projectile magazine
|5,000
|200
|25,000
|
|Mass Driver Ammunition
|-
|Military projectile magazine
|10,000
|200
|50,000
|
|Mass Driver Ammunition
|-
|Frigate-class projectile magazine
|20,000
|500
|100,000
|Can only be fitted on Cothon class ships, K225 class ships, and the OCP-209
|Mass Driver Ammunition
|-
|Destroyer-class projectile magazine
|50,000
|500
|250,000
|Can only be fitted on K225 class ships and the OCP-209
|Mass Driver Ammunition
|-
|Basic nanodrone storage
|1,000
|20
|20,000
|
|Nanodrone Components
|-
|Industrial nanodrone storage
|5,000
|20
|120,000
|
|Nanodrone Components
|-
|Military nanodrone storage
|10,000
|100
|250
|
|Nanodrone Components
|-
|Harvester-class nanodrone storage
|20,000
|100
|500,000
|Can only be fitted on Cothon class ships, K225 class ships, and the OCP-209
|Nanodrone Components
|-
|Station-class nanodrone storage
|50,000
|100
|1,250,000
|Can only be fitted on K225 class ships and the OCP-209
|Nanodrone Components
|-
|Short-range propellant tank
|15,000
|
|6,000
|
|Reaction Mass (remass)
|-
|Standard propellant tank
|30,000
|
|12,000
|
|Reaction Mass (remass)
|-
|Extended propellant tank
|50,000
|
|20,000
|
|Reaction Mass (remass)
|-
|Long-range propellant tank
|80,000
|
|32,000
|Not fittable on the Kitsune
|Reaction Mass (remass)
|-
|Interplanetary propellant tank
|200,000
|
|160,000
|Not fittable on the Kitsune
|Reaction Mass (remass)
|-
|Freighter propellant tank array
|500,000
|
|400,000
|Can only be fitted on K225 class ships and the OCP-209
|Reaction Mass (remass)
|}


===== RCS Thrusters =====
== Thrusters ==
Generally, thrusters have three parameters you're likely to care about. Most important is thrust as this directly affects how your ship's maneuverability. Second is the exhaust velocity - higher exhaust velocities can be considered more "fuel efficient" - accelerating and turning require less propellant if your thrusters have a higher exhaust velocity. Third and finally, is energy consumption - all thrusters need some input power at least to power their fuel pumps, and most also need additional energy for various other mechanical purposes.
{| class="wikitable sortable"
!Name
!Default/Min/Max thrust output (kN)
!Efficiency/exhaust velocity (km/s)
!Propellant economy (kg/s)
!Power consumption (MW)
!Thermal consumption (GW)
!Operation mode
!Response Time (seconds)
!Gimbaled or vectored thrust?
!Cost (E$, per thruster)
!Type
|-
|NDSTR thruster
|600/300/900
|7
|85.7
|1
|2.1
|Pulsed thrust
|
|No
|1,250
|Reaction Control System (RCS)
|-
|NDVTT thruster
|500/250/750
|7
|71.4
|1
|1.8
|Variable thrust
|
|No
|2,500
|Reaction Control System (RCS)
|-
|RA-K37 thruster
|200/100/300
|15
|13.3
|5
|1.5
|Pulsed thrust
|
|No
|3,125
|Reaction Control System (RCS)
|-
|MA150HO thruster
|150/75/225
|30
|5
|40
|2.3
|Variable thrust
|
|No
|4,375
|Reaction Control System (RCS)
|-
|RA-K44 thruster
|400/200/600
|15
|26.6
|15
|3
|Pulsed thrust
|
|No
|6,250
|Reaction Control System (RCS)
|-
|Elon Interstellar Ion Thruster
|120/60/180
|50
|2.4
|40
|3
|Variable thrust
|
|No
|8,000
|Reaction Control System (RCS)
|-
|ERS-NAGHET 5020
|210/105/315
|27
|7.8
|50
|2.8
|Variable thrust
|
|Gimbal, 360 deg/s, 20 deg angle
|8,500
|Reaction Control System (RCS)
|-
|MA350HO thruster
|350/175/525
|25
|14
|60
|4.4
|Variable thrust
|
|No
|10,000
|Reaction Control System (RCS)
|-
|Elon Interstellar AGILE thruster
|120/60/180
|40
|3
|60
|2.5
|Variable thrust
|
|Gimbal, 160 deg/s, 35 deg angle
|12,000
|Reaction Control System (RCS)
|-
|RA-K69V thruster
|400/300/800
|12
|33.3
|25
|3.6
|Pulsed thrust
|
|Gimbal, 540 deg/s, 25 deg angle
|18,600
|Reaction Control System (RCS)
|-
|ND-PNTR engine
|1,500/375/2,250
|8
|187.5
|180
|6
|Pulsed thrust
|2.1
|Vectored, 90 degrees
|7,000
|Main Thrust (Torch)
|-
|RA-TNTRL-K37 engine
|750/375/1,125
|15
|50
|100
|5.6
|Pulsed thrust
|
|No
|15,000
|Main Thrust (Torch)
|-
|ND-NTTR thruster
|3,500/1,750/5,250
|7
|500
|20
|12.2
|Variable thrust
|
|No
|30,000
|Main Thrust (Torch)
|-
|RA-MHFTR-K44 engine
|1,500/750/2,250
|18
|83.3
|100
|13.5
|Pulsed thrust
|
|Gimbal, 36 deg/s, 9 deg angle
|40,000
|Main Thrust (Torch)
|-
|BWM-T535
|535/267/802
|29
|18.4
|0.04
|8.2
|Variable thrust
|0.9
|No
|120,000
|Main Thrust (Torch)
|-
|ERS-DFMHD-2205
|2,200/1,100/3,300
|14
|157.1
|120
|15.4
|Variable Thrust
|0.6
|No
|175,000
|Main Thrust (Torch)
|-
|MA-NMPD42 engine
|320/160/480
|115
|2,8
|150
|18.4
|Variable thrust
|
|No
|300,000
|Main Thrust (Torch)
|-
|Experimental NPMP engine
|1,100/550/1,650
|45
|24.4
|200
|24.7
|Pulsed thrust
|
|No
|700,000
|Main Thrust (Torch)
|-
|Z-Axial Pinch fusion torch
|800/400/800
|1250
|0.6*
|150**
|N/A*
|Variable thrust
|
|Gimbal, 28 deg/s, 30 deg angle
|1,000,000
|Main Thrust (Torch)
|}


With most thrusters, there are trade-offs between thrust (acceleration), exhaust velocity (fuel efficiency), and reliability. Because dV: Rings Of Saturn obeys real-world physics, thrusters have to obey some fundamental laws, some of which are obvious and some of which aren't, so we'll try to get into more detail on these rules in each of the relevant articles.
== Power Services ==


A quick summary table of the RCS thrusters we currently have data for in dV: Rings Of Saturn is below:
===== Fuel Rods =====
^ Design ^ Manufacturer      ^ Model                        ^ Thrust ^ Exhaust velocity ^
{| class="wikitable sortable mw-collapsible mw-collapsed"
| NTR    | Nakamura Dynamics | [[equipment:ndstr|NDSTR]]                        | 600kN  | 7km/s            |
!Name
| NTR    | Nakamura Dynamics | [[equpiment:ndvtt|NDVTT]]                        | 500kN  | 7km/s            |
!Thermal power (GW)
| NTER  | Rusatom-Antonoff  | [[equipment:ra-k37|RA-K37]]                      | 200kN  | 15km/s          |
!Operating temperature (degrees K)
| NTER  | Mitsudaya-Starbus | [[equipment:ma150ho|MA150HO]]                    | 150kN  | 30km/s          |
!Failure point (degrees K)
| NTER  | Rusatom-Antonoff  | [[equipment:ra-k44|RA-K44]]                      | 400kN  | 15km/s          |
!Mass (kg)
| NTER  | Elon Interstellar | [[equipment:eiit|Elon Interstellar Ion Thruster]] | 210kN  | 50km/s          |
!Cost (E$)
!Notes
|-
|4x SO6 fuel rod
|4
|3,500
|4,500
|2,000
|80,000
|
|-
|8x SO6 fuel rod
|8
|3,500
|4,500
|4,000
|160,000
|
|-
|12x SO6 fuel rod
|12
|3,500
|4,500
|6,000
|240,000
|
|-
|16x SO6 fuel rod
|16
|3,500
|4,500
|8,000
|320,000
|Not fittable on the Kitsune
|-
|20x SO6 fuel rod
|20
|3,500
|4,500
|10,000
|400,000
|Not fittable on the Kitsune
|-
|Nakamura Dynamics Yama-SSR12
|30
|3,000
|4,500
|5,000
|750,000
|Not fittable on the Kitsune
|-
|Nakamura Dynamics Yama-SSR16
|40
|3,000
|4,500
|5,500
|1,000,000
|Not fittable on the Kitsune
|-
|Nakamura Dynamics Yama-SSR16S
|50
|3,000
|4,500
|6,000
|1,500,000
|Not fittable on the Kitsune
|}


===== Power Storage =====
{| class="wikitable sortable"
!Name
!Capacity (MJ)
!Power draw (MW)
!Peak Power Discharge(GW)
!Mass (kg)
!Cost (E$)
!Type
|-
|Ultracapacitor
|500
|
|10
|2,000
|25,000
|Ultracapacitor
|-
|Dual Ultracapacitor
|1,000
|
|10
|4,000
|55,000
|Ultracapacitor
|-
|Triple Ultracapacitor
|1,500
|
|10
|6,000
|90,000
|Ultracapacitor
|-
|NDAPS
|18,000
|100
|3
|1,000
|400,000
|AUX (SMES)
|-
|MPI Town-class storage
|32,000
|150
|3
|2,000
|800,000
|AUX (SMES)
|-
|EIUP MkII Unlimited Power
|50,000
|200
|6
|3,500
|1,200,000
|AUX (SMES)
|}


There is no "best" thruster loadout - some pilots prefer the low thrust of the MA150HO for its stellar fuel efficiency and reliability, while some pilots prefer the raw power of the pure-thermal NDSTR, and just accept that they'll burn a prodigious amount of propellant.
===== Power Generation =====
{| class="wikitable sortable mw-collapsible mw-collapsed"
!Name
!Nominal Power Generation (MW)
!Propellant Consumption (kg/s)
!Power Draw
!Thermal Draw
!Mass (kg)
!Cost (E$)
|-
|Turbine
|100
|0.1
|
|
|500
|30,000
|-
|Twin Turbine
|200
|0.2
|
|
|1,000
|60,000
|-
|Military-grade Turbine
|500
|0.5
|
|
|5,000
|150,000
|-
|MPD5035
|350
|
|50
|0.5
|2,500
|300,000
|-
|EIBFG MkIV Big Furnace Generator
|700
|
|100
|1
|4,000
|500,000
|-
|MPI Town-class MPDG
|1,000
|
|150
|1.5
|8,000
|800,000
|}


===== External modular equipment =====
== Cargo Bay ==
Currently there are several completely different classes of equipment which can be fitted to heavy hardpoints like those on the K37's dorsal surface. Most commonly, ships in the rings will be seen with some kind of mining equipment. The current state of the art in asteroid cracking consists of high velocity coilguns, specially tuned microwave emitters, and high-intensity mining lasers, while various designs of drones and accompanying drone bays are available as utility devices. As with thrusters, there is no absolute "best", only what works best for your mining operation.
{| class="wikitable sortable mw-collapsible mw-collapsed"
!Name
!Processing capacity (kg/s)
!Power draw (MW/chunk)
!Mineral processing efficiency (% of ore mass)
!Remass processing efficiency (% of water mass)
!Produces consumables?
!Mass (kg)
!Cost (E$)
|-
|Cargo Bay Baffles
|N/A
|N/A
|N/A
|N/A
|N/A
|400
|2,000
|-
|Rusatom-Antonoff MPU
|20
|2
|40%
|40%
|No
|1,700
|350,000
|-
|Nakamura MPU
|50
|25
|70%
|30%
|No
|4,200
|500,000
|-
|Mitsudaya-Starbus MSU
|100
|150
|90%
|N/A
|No
|2,500
|900,000
|-
|Voyager RSLS Fabrication Plant
|40
|20
|50%
|60%
|Yes, uses 70 MW
|6,000
|1,500,000
|}


==== Asteroid cracking ====
== Autopilot ==
You can't make a fortune without breaking some rocks! Regardless of how you like to fly, sooner or later you're going to have to split some asteroids apart to get at the precious minerals inside. Saturn's asteroids are made mostly of nearly worthless water ice, so engineers across the system have produced an array of powerful tools to help you get the minerals you need to pay the bills. The destructive power of this equipment can't be denied, so be careful when mining! While directed energy weapons like the mining laser and microwave will dissipate at range, you still won't make any friends by firing any of these at other ships.
{| class="wikitable sortable"
!Name
!ARL?
!AAT?
!RTC?
!FBW?
!Can use gimbaled main drives efficiently?
!Gimmick
!Cost (E$)
|-
|MLF Autopilot
|Yes
|No
|No
|No
|No
|Highlights nearby ores and metallic objects
|10,000
|-
|MA-337 Autopilot
|Yes
|Yes
|No
|No
|No
|Displays LIDAR in a disc around your ship
|27,000
|-
|NDCI Autopilot
|No
|No
|Yes
|Yes
|Yes
|Displays firing solutions and collision warnings
|60,000
|-
|ER-42 Autopilot
|Yes
|Yes
|Yes
|Yes
|Yes
|Displays predicted ship course
|100,000
|-
|EIAA-1337 Autopilot
|Yes
|Yes
|Yes
|Yes
|Yes
|Attempts to avoid collisions and collect selected ore chunks
|150,000
|}


  * [[equipment:emd14|EMD-14 mass driver]]
== Heads-Up Display (HUD) ==
  * [[equipment:erfmd17|ERFMD-17 mass driver]]
{| class="wikitable sortable"
  * [[equipment:mwg|MWG microwave emitter]]
!Name
  * [[equipment:cl-150|CL-150 Mk3 mining laser]]
!Dedicated Ship Hull(s)
!Colour Scheme
!Gimmick
!Cost (E$)
|-
|HAL9000
|Cothons
|Yellow
|EMP resistance, CRT monitors
|500
|-
|Eagle Prospector
|Prospectors
|White
|Imperial units, single display
|3.000
|-
|K37 TNTRL
|K37s
|Green
|Reactor core temp graphic, ultracapacitor graphic
|4,000
|-
|AT-K225
|K225s
|Blue
|THICC fill level graphic, reactor core temp graphic, ultracapacitor graphic
|6,000
|-
|Eagle Prospector (metric mod)
|Prospectors
|White
|Single display
|10,000
|-
|OCP-209
|OCP-209
|Yellow
|Physical holographic display, EMP resistance
|15,000
|-
|Elon Interstellar Model E
|Elon Interstellar Model E
|Gray
|Situational info displays, HUD location-locked to ship
|25,000
|-
|ND-LIS Kitsune
|ND-LIS Kitsune
|Magenta
|No boxes around info displays, split LIDAR and visfeed
|31,000
|-
|Bald Eagle Racing HUD
|Bald Eagle
|White
|No mining infos, minimalistic hud with little clutter
|50,000
|}


==== Utility equipment and drones ====
== LIDAR Sensors ==
It's one thing to dive into the rings and shatter every asteroid within a kilometer radius, but a good Ringdiver is able to do more than just pop rocks. Using modern drone systems, you can prevent those precious ores from escaping, and patch up all sorts of ship damage, everything from the benign misaligned thruster to the dreaded reactor leak. While these drone bays will take up a valuable hardpoint on your ship, there's no denying the importance of being able to patch yourself up in the field if you catch a stray mass driver round, or the pleasure of watching a swarm of tug drones catch all those minerals you'd otherwise be scattering around the rings for everyone else to take.
{| class="wikitable sortable"
  * [[equipment:tug-drones|MPI tug drones]]
!Name
  * [[equipment:haul-drones|MLF haul drones]]
!Scanning beam type
  * [[equipment:maintenance-drones|OME Maintenance Drones]]
!Sweep period (ms)
!Sweep coverage (degrees)
!Measurements
|-
|MLF Long-wave RADAR
|low-frequency radio
|2,000
|360
|distance
|-
|IRL-360 Infrared LIDAR
|infrared light
|500
|360
|distance, relative velocity
|-
|IRL-30-BF Beamformed Infrared LIDAR
|infrared light
|500
|30
|distance, relative velocity
|-
|Runasimi High-Resolution LIDAR
|infrared light
|2,000
|360
|distance, relative velocity
|-
|CL-144PLA Phased LIDAR Array
|infrared
|N/A (continuous)
|360
|distance
|}


===== Avionics and autopilots =====
== Reconnaissance Drones ==
The K37 might be an old gem, but spacecraft get their foresight from sensor packages and computers, not from the wisdom of age. Since the ship's introduction at the tail end of the 22nd century, it's fair to say the state of the art has advanced a little.
{| class="wikitable sortable"
 
!Name
Today's flight computers offer obstacle detection and tracking, collision alerting, adaptive controls to compensate for shifting center of mass, emergency thrust overrides for autopilots, and more. With one of these avionics suites installed, you'll be able to fly around The Rings with confidence the K37's engineers could only have dreamt of!
!Tool
 
!View range
A very brief summary of currently available sensor suites and autopilots for the K37 are below:
!Cost (E$)
^ Manufacturer ^ Model ^ Notes ^
|-
| Minding LF | Basic Autopilot | Capable of maintaining a target orientation and velocity |
|Obonto USV-R
| Mitsubishi-Airbus | Adaptive Autopilot | As above, plus improved handling and includes proximity alert overlay on HUD |
|N/A
| Nakamura Dynamics | Military Autopilot | Improved handling plus trajectory analysis and collision alerting on HUD |
|6 km
 
|10,000
===== Sensors and recon drones =====
|-
While the density of the rings makes it very difficult for a pilot to see anything useful with their own eyes, The Rings are - perhaps surprisingly - a very thin disk only about 10 meters thick. Because of their 2D nature, the most popular way to observe the nearby area around a ship is using remote camera drones. Most such drones are quite minimal - just a high resolution camera with powerful optics, a modest propulsion system, and a data link to the parent ship - though more advanced drones are available.
|Runasimi Gravimetric USV
 
|Overlay of relative densities compared to predicted ice densities
Currently only two drones especially popular among Ringdivers are the Recon Drone and the Microseismic Drone, both manufactured by Obonto Micro Engineering.
|5 km
 
|40,000
===== Factory-fitted K37 systems =====
|-
Please see [[ships:k37|Rusatom-Antonoff K37-TNTRL]] for full information.
|Obonto USV-D Microseismic Series
 
|Scanner for predicted densities over objects hovered over with mouse and selected with autopilot
[[equipment:raw_data_dump]]
|5 km
|60,000
|-
|Obonto USV-GOT
|Provides a priority system for nanodrones, NT companions, and the EIAA-1337 autopilot. Right click to toggle queue
|5 km
|200,000
|}

Latest revision as of 01:11, 31 March 2025

This category contains the various components you can install on your ships.

See also: Equipment

Hardpoint Equipment

Name Cost (E$) Consumes Notes Slot(s)
External Impact Absorber 4,000 N/A Can be released, remaining cradle can be used to collect other objects Left and right low-stress hardpoints
EMD-14 mass driver 10,000 Mass driver ammunition, electrical power High-stress, spinal & low-stress hardpoints
MPI Railgun MkI 20,000 Mass driver ammunition, electrical power High-stress, spinal & low-stress hardpoints
ERFMD-17 mass driver 30,000 Mass driver ammunition, electrical power High-stress, spinal & low-stress hardpoints
AEMD-14 mass driver 32,000 Mass driver ammunition, electrical power High-stress, spinal & low-stress hardpoints
B8 Claim Beacon 43,000 N/A Can be released, allows creation of a claim for 1,000 E$ per day active Left and right low-stress hardpoints, front docking bays
AR-1500 Manipulator 56,000 Electrical power Can be tuned to grab different types of object High-stress hardpoints
MWG microwave emitter 70,000 Electrical power High-stress, spinal & low-stress hardpoints
THI Cargo Container 74,000 N/A Can be released, stores processed minerals (requires MPU) of up to 15,000 kg of each mineral Left and right low-stress hardpoints, docking bays
THI Monocargo Container 111,000 N/A Can be released, stores processed minerals (requires MPU) of up to 90,000 kg of a specific mineral Left and right low-stress hardpoints, docking bays
NT Mining Companion 115,000 N/A Can be released, once released mines rocks and collects ore chunks Left and right low-stress hardpoints, docking bays
EINAT Kzinti Lesson MkII 100,000 Propellant, thermal power, electrical power High-stress & spinal hardpoints
NDPT-4205 135,000 Mass driver ammo, electrical power Unlocked through Obonto Habitats, requires holding down the trigger to fire High-stress, spinal, and low-stress hardpoints, docking bays
CL-150 mining laser 150,000 Electrical power High-stress, spinal & low-stress hardpoints
Tetsuo HMX-2000l 160,000 Processed iron OR mass driver ammunition, electrical power, thermal power Processed iron (if any stored on ship) is consumed before mass driver ammo High-stress, spinal & low-stress hardpoints
Point Defense Microwave Generator 180,000 Electrical power High-stress, spinal, and low-stress hardpoints, docking bays
CL-200AP pulse mining laser 220,000 Electrical power High-stress, spinal & low-stress hardpoints
MPI Tug drones 250,000 Nanodrone components, electrical power Drones stop any ore chunk or lifepod that passes it's filter relative to the rings High-stress, spinal & low-stress hardpoints, docking bays and drone mounts
SPC Gungnir 270,000 Electrical power Charges up (30 secs for full charge) and releases for a burst of protons that deals extreme damage of all 3 types (thermal, EMP, kinetic). Positively charges struck objects Left and right low-stress hardpoints
NANI 300,000 Propellant, thermal power, electrical power High-stress hardpoints
CL-600P pulse mining laser 320,000 Electrical power High-stress, spinal & low-stress hardpoints
MLF Haul Drones 350,000 Nanodrone components, electrical power Drones stop any ore chunk or lifepod that passes it's filter relative to the ship, proceeds to bring it in front of the ship, and (if excavator is open) brings it inside the cargo bay High-stress, spinal & low-stress hardpoints, docking bays and drone mounts
OME Maintenance drones 400,000 Nanodrone components, electrical power Repairs any and all damaged equipment up to 65% total durability High-stress, spinal & low-stress hardpoints, docking bays and drone mounts

Consumables

Name Storage Amount (kg) Delivery Speed (kg/s) Cost (E$) Notes Type
Projectile magazine 1,000 100 5,000 Mass Driver Ammunition
Dual projectile magazine 2,000 200 10,000 Mass Driver Ammunition
Heavy projectile magazine 5,000 200 25,000 Mass Driver Ammunition
Military projectile magazine 10,000 200 50,000 Mass Driver Ammunition
Frigate-class projectile magazine 20,000 500 100,000 Can only be fitted on Cothon class ships, K225 class ships, and the OCP-209 Mass Driver Ammunition
Destroyer-class projectile magazine 50,000 500 250,000 Can only be fitted on K225 class ships and the OCP-209 Mass Driver Ammunition
Basic nanodrone storage 1,000 20 20,000 Nanodrone Components
Industrial nanodrone storage 5,000 20 120,000 Nanodrone Components
Military nanodrone storage 10,000 100 250 Nanodrone Components
Harvester-class nanodrone storage 20,000 100 500,000 Can only be fitted on Cothon class ships, K225 class ships, and the OCP-209 Nanodrone Components
Station-class nanodrone storage 50,000 100 1,250,000 Can only be fitted on K225 class ships and the OCP-209 Nanodrone Components
Short-range propellant tank 15,000 6,000 Reaction Mass (remass)
Standard propellant tank 30,000 12,000 Reaction Mass (remass)
Extended propellant tank 50,000 20,000 Reaction Mass (remass)
Long-range propellant tank 80,000 32,000 Not fittable on the Kitsune Reaction Mass (remass)
Interplanetary propellant tank 200,000 160,000 Not fittable on the Kitsune Reaction Mass (remass)
Freighter propellant tank array 500,000 400,000 Can only be fitted on K225 class ships and the OCP-209 Reaction Mass (remass)

Thrusters

Name Default/Min/Max thrust output (kN) Efficiency/exhaust velocity (km/s) Propellant economy (kg/s) Power consumption (MW) Thermal consumption (GW) Operation mode Response Time (seconds) Gimbaled or vectored thrust? Cost (E$, per thruster) Type
NDSTR thruster 600/300/900 7 85.7 1 2.1 Pulsed thrust No 1,250 Reaction Control System (RCS)
NDVTT thruster 500/250/750 7 71.4 1 1.8 Variable thrust No 2,500 Reaction Control System (RCS)
RA-K37 thruster 200/100/300 15 13.3 5 1.5 Pulsed thrust No 3,125 Reaction Control System (RCS)
MA150HO thruster 150/75/225 30 5 40 2.3 Variable thrust No 4,375 Reaction Control System (RCS)
RA-K44 thruster 400/200/600 15 26.6 15 3 Pulsed thrust No 6,250 Reaction Control System (RCS)
Elon Interstellar Ion Thruster 120/60/180 50 2.4 40 3 Variable thrust No 8,000 Reaction Control System (RCS)
ERS-NAGHET 5020 210/105/315 27 7.8 50 2.8 Variable thrust Gimbal, 360 deg/s, 20 deg angle 8,500 Reaction Control System (RCS)
MA350HO thruster 350/175/525 25 14 60 4.4 Variable thrust No 10,000 Reaction Control System (RCS)
Elon Interstellar AGILE thruster 120/60/180 40 3 60 2.5 Variable thrust Gimbal, 160 deg/s, 35 deg angle 12,000 Reaction Control System (RCS)
RA-K69V thruster 400/300/800 12 33.3 25 3.6 Pulsed thrust Gimbal, 540 deg/s, 25 deg angle 18,600 Reaction Control System (RCS)
ND-PNTR engine 1,500/375/2,250 8 187.5 180 6 Pulsed thrust 2.1 Vectored, 90 degrees 7,000 Main Thrust (Torch)
RA-TNTRL-K37 engine 750/375/1,125 15 50 100 5.6 Pulsed thrust No 15,000 Main Thrust (Torch)
ND-NTTR thruster 3,500/1,750/5,250 7 500 20 12.2 Variable thrust No 30,000 Main Thrust (Torch)
RA-MHFTR-K44 engine 1,500/750/2,250 18 83.3 100 13.5 Pulsed thrust Gimbal, 36 deg/s, 9 deg angle 40,000 Main Thrust (Torch)
BWM-T535 535/267/802 29 18.4 0.04 8.2 Variable thrust 0.9 No 120,000 Main Thrust (Torch)
ERS-DFMHD-2205 2,200/1,100/3,300 14 157.1 120 15.4 Variable Thrust 0.6 No 175,000 Main Thrust (Torch)
MA-NMPD42 engine 320/160/480 115 2,8 150 18.4 Variable thrust No 300,000 Main Thrust (Torch)
Experimental NPMP engine 1,100/550/1,650 45 24.4 200 24.7 Pulsed thrust No 700,000 Main Thrust (Torch)
Z-Axial Pinch fusion torch 800/400/800 1250 0.6* 150** N/A* Variable thrust Gimbal, 28 deg/s, 30 deg angle 1,000,000 Main Thrust (Torch)

Power Services

Fuel Rods
Name Thermal power (GW) Operating temperature (degrees K) Failure point (degrees K) Mass (kg) Cost (E$) Notes
4x SO6 fuel rod 4 3,500 4,500 2,000 80,000
8x SO6 fuel rod 8 3,500 4,500 4,000 160,000
12x SO6 fuel rod 12 3,500 4,500 6,000 240,000
16x SO6 fuel rod 16 3,500 4,500 8,000 320,000 Not fittable on the Kitsune
20x SO6 fuel rod 20 3,500 4,500 10,000 400,000 Not fittable on the Kitsune
Nakamura Dynamics Yama-SSR12 30 3,000 4,500 5,000 750,000 Not fittable on the Kitsune
Nakamura Dynamics Yama-SSR16 40 3,000 4,500 5,500 1,000,000 Not fittable on the Kitsune
Nakamura Dynamics Yama-SSR16S 50 3,000 4,500 6,000 1,500,000 Not fittable on the Kitsune
Power Storage
Name Capacity (MJ) Power draw (MW) Peak Power Discharge(GW) Mass (kg) Cost (E$) Type
Ultracapacitor 500 10 2,000 25,000 Ultracapacitor
Dual Ultracapacitor 1,000 10 4,000 55,000 Ultracapacitor
Triple Ultracapacitor 1,500 10 6,000 90,000 Ultracapacitor
NDAPS 18,000 100 3 1,000 400,000 AUX (SMES)
MPI Town-class storage 32,000 150 3 2,000 800,000 AUX (SMES)
EIUP MkII Unlimited Power 50,000 200 6 3,500 1,200,000 AUX (SMES)
Power Generation
Name Nominal Power Generation (MW) Propellant Consumption (kg/s) Power Draw Thermal Draw Mass (kg) Cost (E$)
Turbine 100 0.1 500 30,000
Twin Turbine 200 0.2 1,000 60,000
Military-grade Turbine 500 0.5 5,000 150,000
MPD5035 350 50 0.5 2,500 300,000
EIBFG MkIV Big Furnace Generator 700 100 1 4,000 500,000
MPI Town-class MPDG 1,000 150 1.5 8,000 800,000

Cargo Bay

Name Processing capacity (kg/s) Power draw (MW/chunk) Mineral processing efficiency (% of ore mass) Remass processing efficiency (% of water mass) Produces consumables? Mass (kg) Cost (E$)
Cargo Bay Baffles N/A N/A N/A N/A N/A 400 2,000
Rusatom-Antonoff MPU 20 2 40% 40% No 1,700 350,000
Nakamura MPU 50 25 70% 30% No 4,200 500,000
Mitsudaya-Starbus MSU 100 150 90% N/A No 2,500 900,000
Voyager RSLS Fabrication Plant 40 20 50% 60% Yes, uses 70 MW 6,000 1,500,000

Autopilot

Name ARL? AAT? RTC? FBW? Can use gimbaled main drives efficiently? Gimmick Cost (E$)
MLF Autopilot Yes No No No No Highlights nearby ores and metallic objects 10,000
MA-337 Autopilot Yes Yes No No No Displays LIDAR in a disc around your ship 27,000
NDCI Autopilot No No Yes Yes Yes Displays firing solutions and collision warnings 60,000
ER-42 Autopilot Yes Yes Yes Yes Yes Displays predicted ship course 100,000
EIAA-1337 Autopilot Yes Yes Yes Yes Yes Attempts to avoid collisions and collect selected ore chunks 150,000

Heads-Up Display (HUD)

Name Dedicated Ship Hull(s) Colour Scheme Gimmick Cost (E$)
HAL9000 Cothons Yellow EMP resistance, CRT monitors 500
Eagle Prospector Prospectors White Imperial units, single display 3.000
K37 TNTRL K37s Green Reactor core temp graphic, ultracapacitor graphic 4,000
AT-K225 K225s Blue THICC fill level graphic, reactor core temp graphic, ultracapacitor graphic 6,000
Eagle Prospector (metric mod) Prospectors White Single display 10,000
OCP-209 OCP-209 Yellow Physical holographic display, EMP resistance 15,000
Elon Interstellar Model E Elon Interstellar Model E Gray Situational info displays, HUD location-locked to ship 25,000
ND-LIS Kitsune ND-LIS Kitsune Magenta No boxes around info displays, split LIDAR and visfeed 31,000
Bald Eagle Racing HUD Bald Eagle White No mining infos, minimalistic hud with little clutter 50,000

LIDAR Sensors

Name Scanning beam type Sweep period (ms) Sweep coverage (degrees) Measurements
MLF Long-wave RADAR low-frequency radio 2,000 360 distance
IRL-360 Infrared LIDAR infrared light 500 360 distance, relative velocity
IRL-30-BF Beamformed Infrared LIDAR infrared light 500 30 distance, relative velocity
Runasimi High-Resolution LIDAR infrared light 2,000 360 distance, relative velocity
CL-144PLA Phased LIDAR Array infrared N/A (continuous) 360 distance

Reconnaissance Drones

Name Tool View range Cost (E$)
Obonto USV-R N/A 6 km 10,000
Runasimi Gravimetric USV Overlay of relative densities compared to predicted ice densities 5 km 40,000
Obonto USV-D Microseismic Series Scanner for predicted densities over objects hovered over with mouse and selected with autopilot 5 km 60,000
Obonto USV-GOT Provides a priority system for nanodrones, NT companions, and the EIAA-1337 autopilot. Right click to toggle queue 5 km 200,000
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Last modified
This page was last edited on 31 March 2025, at 01:11.
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