EDEngineering
This page contains information about engineering in the game Elite: Dangerous.
More information can be obtained from the ED wiki [1] or from various ED forum posts [2].
Gaining access to engineers
The protocol for gaining access to an engineer is this:
- Learn of an engineer's existence
- Initially every player knows about 5 engineers - this is public knowledge. You learn about the existence of other engineers by working with the engineers you already know. Your access to an engineer is measured in "grades". There are grades 1-5. If an engineer has knowledge of another engineer, he or she will reveal that knowledge to you when you have gained grade 3 access and are about 1/3 of the way towards grade 4 access (sometimes grade 3 access may also be sufficient). See the section Discovery tree further down on this page for a schematic of how your knowledge of the existence of all the engineers progresses. When you learn of an engineer's existence the engineer's status is "locked".
- Receive an invitation
- Sometimes when you learn about an engineer's existence you will immediately receive an invitation from that engineer to pay him or her a visit at his or her place of residence. Sometimes, however, the mere knowledge of an engineer's existence is not enough and you first have to meet a precondition of some sort (e.g. gain reputation with a faction) before you will receive the invitation. Once you have met the precondition you receive the invitation either as a direct message, or in the form of a mission that you have to accept from a station's mission board. The Engineers screen (available from the status panel by selecting the "View engineers" button) tells you about which precondition(s) you have to meet, and where you can obtain the invitation mission. Only an invitation will reveal an engineer's place or residence. When you receive an invitation the engineer's status changes from "locked" to "invited".
- Fulfill initial contract
- Once an engineer has invited you, you still have to fulfill an initial contract before you can start to work with the engineer. The requirements of the initial contract wildly vary from engineer to engineer and are typically tied to the engineer's personal background story. You must fullfill the contract at the engineer's place of residence, but you can usually visit the engineer several times to fulfill parts of the contract. Example: If you have to donate cash or goods you can do so by donating several times and the donations will add up until you have met all the requirements. When you fulfill the initial contract you gain grade 1 access to the engineer and can start to make modifications to your ship's modules using the blueprints provided by the engineer.
- Increase grade of access
- Every time you spend resources for rolling on a modification you will slightly increase the grade of access you have to the engineer. Grades of access progress from 1 to 5. With grade 1 access a blueprint's modifications are the least powerful, but the resources you have to spend on a roll are also relatively cheap and easy to come by. Higher grades of access allow you to perform more powerful modifications with the same blueprint, although the blueprint's general effects remain the same. At the same time you also have to spend more expensive resources on each roll. "More expensive" does not necessarily mean an increase in quantity (e.g. 2 instead of 1 Sulphur), but you usually have to spend a different kind of resource that is more difficult to obtain (e.g. 1 Chemical Manipulator instead of 1 Chemical Processor).
Discovery tree
The following nested list shows which engineers you have to unlock in order to gain access to other engineers. An engineer will reveal the next engineer(s) he or she knows to you when you have gained grade 3 access and are about 1/3 of the way towards grade 4 access (sometimes grade 3 access may also be sufficient). Engineers marked with (*) are those that I am particularly interested in because they provide blueprints that are useful for exploration.
- Elvira Martuuk (*)
- Marco Qwent (*)
- Professor Palin
- Lori Jameson (*)
- Chloe Sedesi
- Zacariah Nemo
- Mel Brandon
- Marco Qwent (*)
- Felicity Farseer (*)
- Juri Ishmaak
- Colonel Bris Dekker
- The Sarge
- Juri Ishmaak
- The Dweller
- Lei Cheung (*)
- Ram Tah
- Marsha Hicks
- Lei Cheung (*)
- Tod "The Blaster" McQuinn
- Selene Jean (*)
- Bill Turner
- Didi Vatermann
- Petra Olmanova
- Selene Jean (*)
- Liz Ryder
- Hera Tani
- Tiana Fortune (*)
- Broo Tarquin
- Etienne Dorn
- Hera Tani
Engineers overview
The following table lists all engineers, their homesystems, which blueprints they provide and which modules are affected by the blueprints. Note that some blueprints are provided by more than one engineer.
Engineer (*) = relevant for exploration |
Home base | Allegiance | Revealed by | Invitation | Initial contract | Increase grade access | Module | Blueprint / Maximum grade | Remarks |
---|---|---|---|---|---|---|---|---|---|
Elvira Martuuk (*) | Khun Khun 5 Long Sight Base |
Independent | - (common knowledge) | Travel more than 300 ly from starting system | Provide 3 units of Soontill Relics (rare good) | Craft modules or Sell exploration data at home base |
Thrusters | Dirty Drive Tuning (2) Drive Strengthening (2) Clean Drive Tuning (2) |
Soontill Relics can only be bought at Cheranovsky City in the Ngurii system. As with all rare goods, you can only buy a certain maximum quantity at a time, but since this engineer requires only 3 units you should be able to obtain the required units in a single visit. In my case I was able to buy 16t at a time. |
Shield Generators | Kinetic Resistant Shields (3) Enhanced, Low Power Shields (3) Reinforced Shields (3) Thermal Resistant Shields (3) | ||||||||
Shield Cell Banks | Rapid Charge Shield Cell Bank (1) Specialised Shield Cell Bank (1) | ||||||||
FSD | Faster FSD Boot Sequence (5) Increased FSD Range (5) Shielded FSD (5) | ||||||||
Marco Qwent | Sirius Lucifer Qwent Research Base |
Independent | Elvira Martuuk | Friendly or higher reputation with minor faction Sirius Corporation. Obtain an invitation mission from one of the stations in the Sirius system. | Provide 25 units of Modular Terminals (mission reward) | Craft modules or Sell commodities at home base |
Power Distributors | High Charge Capacity Power Distributor (3) Charge Enhanced Power Distributor (3) Engine Focused Power Distributor (3) System Focused Power Distributor (3) Weapon Focused Power Distributor (3) Shielded Power Distributor (3) |
Gaining access to this engineer has three difficulties:
|
Power Plants | Armoured Power Plant (4) Overcharged Power Plant (4) Low Emissions Power Plant (3) | ||||||||
Professor Palin | Maia Maia A 3 A Palin Research Centre |
Independent | Marco Qwent | Travel more than 5000 ly from starting system | Provide 25 units of Unknown Fragments | Craft modules or Sell exploration data at home base |
Thrusters | Dirty Drive Tuning (5) Drive Strengthening (5) Clean Drive Tuning (5) |
Unknown Fragments can be obtained by shooting Unknown Artifacts. Where exactly one can find Unknown Artifacts seems to be a somewhat moving target. For instance, at the time of writing the Alien Crash Site located in the HIP 17862 system, on planet 6 C A at coordinates 30.3398, -98.587, seems to have disappeared. Instead I was successful hunting USS in the HIP 14479 system: Only USS with the type "Anomaly Detected (Threat 4)" are interesting, those contain an Unknown Artefact which on destruction will disintegrate into 1-2 Unknown Fragments. As usual with materials, each Unknown Fragment that you collect will produce 3 materials in your inventory. So to fullfil the engineer's contract you will have to collect 8 fragments. |
FSD | Faster FSD Boot Sequence (3) Increased FSD Range (3) Shielded FSD (3) | ||||||||
Lori Jameson | Marco Qwent | Combat rank Dangerous or higher | |||||||
Zacariah Nemo | Yoru Yoru 4 Nemo Cyber Party Base |
Independent | Elvira Martuuk | Friendly or higher reputation with minor faction Party of Yoru. Obtain an invitation mission from one of the stations in the Yoru system. | Provide 25 units of Xihe Biomorphic Companions (rare good) | Craft modules or Sell commodities at home base |
Multi-Cannons | Efficient Weapon (3) High Capacity Magazine (3) Light Weight Mount (3) Long Range Weapon (3) Overcharged Weapon (3) Rapid Fire Modification (3) Short Range Blaster (3) Sturdy Mount (3) |
Xihe Biomorphic Companions can only be bought at Zhen Dock in the Xihe system. As with all rare goods, you can only buy a certain maximum quantity at a time, but since this engineer requires only 25 units you should be able to obtain the required units in a single visit. In my case I was able to buy 40t at a time. |
Fragment Cannons | Double Shot (5) Efficient Weapon (5) High Capacity Magazine (5) Light Weight Mount (5) Overcharged Weapon (5) Rapid Fire Modification (5) Sturdy Mount (5) | ||||||||
Plasma Accelerators | Efficient Weapon (2) Focused Weapon (2) Light Weight Mount (2) Long Range Weapon (2) Overcharged Weapon (2) Rapid Fire Modification (2) Short Range Blaster (2) Sturdy Mount (2) | ||||||||
Felicity Farseer (*) | Deciat Deciat 6 A Farseer Inc |
Federation | - (common knowledge) | Exploration rank Scout or higher | Provide 1 unit of Meta-Alloys | Craft modules or Sell exploration data at home base |
Meta-Alloys can only be bought at Darnielle's Progress (a planetary base on Maia A 2 A) in the Maia system. | ||
Juri Ishmaak | Giryak Giryak 2 A Pater's Memorial |
Federation | Felicity Farseer | Redeem 50 or more combat bond vouchers | Provide 100'000 credits worth of combat bond vouchers | Craft modules or Sell combat bond vouchers at home base |
Manifest Scanners | Misc Leightweight (3) Misc Reinforced (3) Misc Shielded (3) Long Range Scanner (3) Wide Angle Scanner (3) Fast Scanner (3) |
The initial description of the engineer that is displayed before the invitation inidicates that only combat bond vouchers count that are earned while fighting on the side of a faction that is affiliated with the Federation superpower ("50 combat bonds for the Feds"). In any way, when you hand in vouchers be sure to wait some time (can be several minutes) for the transaction to register and for the invitation requirement counters to go up. A note regarding gaining rank with the engineer: To fulfill the initial contract you can donate any kind of combat bond vouchers, but when you want to gain rank with the engineer later on you can sell only local combat bond vouchers at the engineer's home base! |
Kill Warrant Scanners | Misc Leightweight (3) Misc Reinforced (3) Misc Shielded (3) Long Range Scanner (3) Wide Angle Scanner (3) Fast Scanner (3) | ||||||||
Sensors | Longe Range Scanner (5) Wide Angle Scanner (5) Light Weight Scanner (5) | ||||||||
Torpedoes | Light Weight Mount (3) Sturdy Mount (3) | ||||||||
Mines | High Capacity Magazine (5) Rapid Fire Modification (5) Light Weight Mount (5) Sturdy Mount (5) | ||||||||
Surface Scanners | Expanded Probe Scanning Radius Scanner (5) | ||||||||
Missiles | High Capacity Magazine (3) Rapid Fire Modification (3) Light Weight Mount (3) Sturdy Mount (3) | ||||||||
Wake Scanners | Misc Leightweight (3) Misc Reinforced (3) Misc Shielded (3) Long Range Scanner (3) Wide Angle Scanner (3) Fast Scanner (3) | ||||||||
Colonel Bris Dekker | Sol Iapetus Dekker's Yard |
Federation | Juri Ishmaak | Friendly or higher reputation with superpower Federation | Provide 1'000'000 credits worth of combat bond vouchers | ? | ? | ? | In order to be able to visit Sol at all you need to obtain a system permit, and you get that permit only by gaining Petty Officer or higher naval rank with superpower Federation. While you still haven't fulfilled the initial contract, the engineer description says: "Combat reputation means nothing. Show me proof. You want access to my expertise, I want to see combat bonds for the Federation." As with Juri Ishmaak, it is not clear whether this means that the vouchers must be earned while fighting on the side of a faction that is affiliated with the Federation superpower. |
The Sarge | Beta-3 Tucani Beta-3 Tucani 2 B A The Beach |
Federation | Juri Ishmaak | Midshipman or higher naval rank with superpower Federation | Provide 50 units of Aberrant Shield Pattern Analysis | ? | Cannons | Efficient Weapon (5) High Capacity Magazine (5) Light Weight Mount (5) Long Range Weapon (5) Overcharged Weapon (5) Rapid Fire Modification (5) Short Range Blaster (5) Sturdy Mount (5) |
Aberrant Shield Pattern Analysis is a type of data that can be obtained by scanning ships. The only ship types that I clearly remember of yielding this data type are the Orca, Cobra MK III, Type-7 Transporter, Python, Vulture and Type-9 Heavy. Other ship types may yield this data type as well. |
Fuel Transfer Limpets | Misc Lightweight (5) Misc Reinforced (5) Misc Shielded (5) | ||||||||
Rail Guns | High Capacity Magazine (3) Light Weight Mount (3) Long Range Weapon (3) Short Range Blaster (3) Sturdy Mount (3) | ||||||||
Prospecting Limpets | Misc Leightweight (5) Misc Reinforced (5) Misc Shielded (5) | ||||||||
Hatch Breaker Limpets | Misc Leightweight (5) Misc Reinforced (5) Misc Shielded (5) | ||||||||
Collection Limpets | Misc Leightweight (5) Misc Reinforced (5) Misc Shielded (5) | ||||||||
The Dweller | Wyrd Wyrd A 2 Black Hide |
Independent | - (common knowledge) | Deal with at least 5 black markets | Donate 500'000 credits | Craft modules or Sell commodities to market at home base |
Power Distributor | High Charge Capacity Power Distributor (5) Charge Enhanced Power Distributor (5) Shielded Power Distributor (5) Engine Focused Power Distributor (3) System Focused Power Distributor (3) Weapon Focused Power Distributor (3) |
|
Burst Laser | Efficient Weapon (3) Focused Weapon (3) Light Weight Mount (3) Long Range Weapon (3) Overcharged Weapon (3) Rapid Fire Modification (3) Short Range Blaster (3) Sturdy Mount (3) | ||||||||
Pulse Laser | Efficient Weapon (4) Focused Weapon (4) Light Weight Mount (4) Long Range Weapon (4) Overcharged Weapon (4) Rapid Fire Modification (4) Short Range Blaster (4) Sturdy Mount (4) | ||||||||
Beam Laser | Light Weight Mount (3) Long Range Weapon (3) Short Range Blaster (3) Sturdy Mount (3) Overcharged Weapon (3) Efficient Weapon (3) | ||||||||
Lei Cheung | Laksak Laksak A 1 Trader's Rest |
Independent | The Dweller | Trade with at least 50 markets | Provide 200 units of Gold | Craft modules | Shield Generators | Kinetic Resistant Shields (5) Enhanced, Low Power Shields (5) Reinforced Shields (5) Thermal Resistant Shields (5) |
|
Shield Boosters | Blast Resistant Shield Booster (3) Heavy Duty Shield Booster (3) Kinetic Resistant Shield Booster (3) Resistance Augmented Shield Booster (3) Thermal Resistant Shield Booster (3) | ||||||||
Sensors | Longe Range Scanner (5) Wide Angle Scanner (5) Light Weight Scanner (5) | ||||||||
Surface Scanners | Expanded Probe Scanning Radius Scanner (5) | ||||||||
Ram Tah | Meene Meene AB 5 D Phoenix Base |
Independent | Lei Cheung | Exploration rank Surveyor or higher | 50 units of Classified Scan Databanks | Craft modules or Sell exploration data at home base |
Point Defence | Misc Leightweight (5) Misc Reinforced (5) Misc Shielded (5) Point Defence Ammo Capacity (3) |
Classified Scan Databanks is a type of data that is given out as a mission reward, or can be obtained by scanning ships. The only ship types that I clearly remember of yielding this data type are the Beluga Liner, Dolphin, Sidewinder and the Type-7 Transporter. Other ship types may yield this data type as well. |
Chaff Launchers | Misc Leightweight (5) Misc Reinforced (5) Misc Shielded (5) Chaff Ammo Capacity (3) | ||||||||
Heat Sink Launchers | Misc Leightweight (5) Misc Reinforced (5) Misc Shielded (5) Heat Sink Ammo Capacity (3) | ||||||||
Fuel Transfer Limpets | Misc Leightweight (4) Misc Reinforced (4) Misc Shielded (4) | ||||||||
ECMS | Misc Leightweight (5) Misc Reinforced (5) Misc Shielded (5) | ||||||||
Prospecting Limpets | Misc Leightweight (4) Misc Reinforced (4) Misc Shielded (4) | ||||||||
Hatch Breaker Limpets | Misc Leightweight (3) Misc Reinforced (3) Misc Shielded (3) | ||||||||
Collection Limpets | Misc Leightweight (4) Misc Reinforced (4) Misc Shielded (4) | ||||||||
Tod "The Blaster" McQuinn | Wolf 397 Trus Madi Trophy Camp |
Alliance | - (common knowledge) | Earn at least 15 bounty vouchers | Provide 100'000 credits worth of bounty vouchers | Craft modules or Hand in Alliance vouchers at home base |
Cannons | Efficient Weapon (2) High Capacity Magazine (2) Light Weight Mount (2) Long Range Weapon (2) Overcharged Weapon (2) Rapid Fire Modification (2) Short Range Blaster (2) Sturdy Mount (2) |
|
Multi-Cannons | Efficient Weapon (5) High Capacity Magazine (5) Light Weight Mount (5) Long Range Weapon (5) Overcharged Weapon (5) Rapid Fire Modification (5) Short Range Blaster (5) Sturdy Mount (5) | ||||||||
Fragment Cannons | Efficient Weapon (3) High Capacity Magazine (3) Light Weight Mount (3) Overcharged Weapon (3) Rapid Fire Modification (3) Sturdy Mount (3) Double Shot (3) | ||||||||
Rail Guns | High Capacity Magazine (5) Light Weight Mount (5) Long Range Weapon (5) Short Range Blaster (5) Sturdy Mount (5) | ||||||||
Selene Jean | Kuk Kuk 3 B Prospector's Rest |
Alliance | Tod "The Blaster" McQuinn | Mine at least 500 tons of ore | Provide 10 units of Painite | Craft modules or Sell commodities or exploration data at home base |
Hull Reinforcements | Lightweight Hull Reinforcement (5) Blast Resistant Hull Reinforcement (5) Heavy Duty Hull Reinforcement (5) Kinetic Resistant Hull Reinforcement (5) Thermal Resistant Hull Reinforcement (5) |
|
Armour | Lightweight Armour (5) Blast Resistant Armour (5) Heavy Duty Armour (5) Kinetic Resistant Armour (5) Thermal Resistant Armour (5) | ||||||||
Bill Turner | Alioth Alioth 4 A Turner Metallics Inc |
Alliance | Selene Jean | 35% or more towards friendly reputation with superpower Alliance | Provide 50 units of Bromellite | Craft modules or Sell commodities at home base |
Fuel Scoops | ? | The in-game description of the engineer's invitation precondition suggests that you need to be friendly (or higher) with the Alliance. However, when I started working on my Alliance reputation, I suddenly received the invitation when I was still at cordial reputation, to be exact: when I sold some commodities while I was at the 35% mark towards friendly. Bromellite cannot be bought, it must be mined from icy rings. Select a system with pristine reserves and make sure to take prospector limpets to maximize the yield. I loaded up my Cutter with 475 limpets, then on premise I freely wasted limpets to find asteroids with a high concentration of Bromellite, in order to get done as quickly as possible. Of course you can also mine asteroids with a low concentration of Bromellite (less than 10%), but then it will take a lot of time to refine 50 tonnes. If you focus on asteroids with a concentration of, let's say, at least 15% you will get at least 2-3 Bromellite for every asteroid. |
Plasma Accelerators | Efficient Weapon (5) Focused Weapon (5) Light Weight Mount (5) Long Range Weapon (5) Overcharged Weapon (5) Rapid Fire Modification (5) Short Range Blaster (5) Sturdy Mount (5) | ||||||||
Manifest Scanners | Misc Lightweight (3) Misc Reinforced (3) Misc Shielded (3) Long Range Scanner (3) Wide Angle Scanner (3) Fast Scanner (3) | ||||||||
Kill Warrant Scanners | Misc Lightweight (3) Misc Reinforced (3) Misc Shielded (3) Long Range Scanner (3) Wide Angle Scanner (3) Fast Scanner (3) | ||||||||
Sensors | Longe Range Scanner (5) Wide Angle Scanner (5) Light Weight Scanner (5) | ||||||||
AFMs | Misc Shielded (3) | ||||||||
Refineries | Misc Shielded (3) | ||||||||
Surface Scanners | Expanded Probe Scanning Radius Scanner (5) | ||||||||
Life Support | Misc Lightweight (3) Misc Reinforced (3) Misc Shielded (3) | ||||||||
Wake Scanners | Misc Lightweight (3) Misc Reinforced (3) Misc Shielded (3) Long Range Scanner (3) Wide Angle Scanner (3) Fast Scanner (3) | ||||||||
Didi Vatermann | Leesti Leesti 1 A Vatermann LLC |
Alliance | Selene Jean | Trade rank Merchant or higher | Provide 50 units of Lavian Brandy | Lavian Brandy can only be bought at Lave Station in the Lave system. As with all rare goods, you can only buy a certain maximum quantity at a time, which requires you to return to Lave several times until you have obtained the necessary 50 units. In my case I was able to buy only 6t at a time. | |||
Liz Ryder | Eurybia Makalu Demolition Unlimited |
Empire | - (common knowledge) | Cordial or higher reputation with minor faction Eurybia Blue Mafia. Obtain an invitation mission from one of the stations in the Eurybia system. | Provide 200 units of Landmines | Craft modules or Sell commodities at home base |
Landmines can only be bought at markets located on planetary military bases. Landmines are illicit at the engineer's homebase and in many other places. | ||
Hera Tani | Kuwemaki Kuwemaki A 3 A The Jet's Hole |
Empire | Liz Ryder | Outsider or higher naval rank with superpower Empire | Provide 50 units of Kamitra Cigars (rare good) | Craft modules or Sell commodities to market at home base |
Power Distributors | High Charge Capacity Power Distributor (3) Charge Enhanced Power Distributor (3) Engine Focused Power Distributor (3) System Focused Power Distributor (3) Weapon Focused Power Distributor (3) Shielded Power Distributor (3) |
Kamitra Cigars can only be bought at Hammel Terminal in the Kamitra system. As with all rare goods, you can only buy a certain maximum quantity at a time, which requires you to return to Kamitra several times until you have obtained the necessary 50 units. In my case I was able to buy only 8t at a time. |
Sensors | Longe Range Scanner (3) Wide Angle Scanner (3) Light Weight Scanner (3) | ||||||||
Power Plants | Armoured Power Plant (5) Overcharged Power Plant (5) Low Emissions Power Plant (3) | ||||||||
Surface Scanners | Expanded Probe Scanning Radius Scanner (5) | ||||||||
Tiana Fortune | Achenar Achenar 4 A Fortune's Loss |
Empire | Hera Tani | Friendly or higher reputation with superpower Empire | Provide 50 units of Decoded Emission Data | Craft modules or Sell commodities to market at home base |
Fuel Transfer Limpets | Misc Lightweight (5) Misc Reinforced (5) Misc Shielded (5) |
In order to be able to visit Achenar at all you need to obtain a system permit, and you get that permit only by becoming Squire or higher naval rank with superpower Empire. Decoded Emission Data can be obtained as a mission reward, or from scanning combat-type ships. You don't need to blow those ships up, just scan them. It doesn't matter where you scan the ship, i.e. you can scan ships in supercruise, at a nav beacon, in a hazardous RES, outside a station, etc.. Decoded Emission Data is quite rare (grade 4 data type), so personally I recommend to do the scanning as an occupation on the side to minimize the RNG frustration. For instance, I once spent several hours scanning combat ships in a combat zone, without getting even a single Decoded Emission Data. After that I decided to just do some normal trading and community goal stuff and scan ships whenever I see them. The data collection process was much less frustrating after that. I got Decoded Emission Data from the following ship types: Viper MK III, Asp Explorer, Imperial Clipper, Imperial Courier, Federal Dropship, Python and Vulture. Note that sometimes you get several data packages from a single scan, so you should always keep sufficient space in your data storage to make sure that the coveted Decoded Emission Data will not be lost due to full storage. I once received 4 data packages from a single scan, which in total yielded 12 data items, so after that I always kept 12 free slots in my data storage. |
Manifest Scanners | Misc Lightweight (5) Misc Reinforced (5) Misc Shielded (5) Long Range Scanner (5) Wide Angle Scanner (5) Fast Scanner (5) | ||||||||
Kill Warrant Scanners | Misc Lightweight (5) Misc Reinforced (5) Misc Shielded (5) Long Range Scanner (5) Wide Angle Scanner (5) Fast Scanner (5) | ||||||||
Prospecting Limpets | Misc Lightweight (5) Misc Reinforced (5) Misc Shielded (5) | ||||||||
Hatch Breaker Limpets | Misc Lightweight (5) Misc Reinforced (5) Misc Shielded (5) | ||||||||
Sensors | Long Range Scanner (5) Wide Angle Scanner (5) Fast Scanner (5) | ||||||||
FSD Interdictors | Expanded FSD Interdictor Capture Arc (3) Longer Range FSD Interdictor (3) | ||||||||
Collection Limpets | Misc Lightweight (5) Misc Reinforced (5) Misc Shielded (5) | ||||||||
Surface Scanners | Expanded Probe Scanning Radius Scanner (3) | ||||||||
Wake Scanners | Misc Lightweight (5) Misc Reinforced (5) Misc Shielded (5) Long Range Scanner (5) Wide Angle Scanner (5) Fast Scanner (5) | ||||||||
Broo Tarquin | Muang Muang 5 A Broo's Legacy |
Empire | Hera Tani | Combat rank Competent or higher | Provide 50 units of Fujin Tea | Fujin Tea can only be bought at Futen Spaceport in the Fujin system. As with all rare goods, you can only buy a certain maximum quantity at a time, which requires you to return to Fujin several times until you have obtained the necessary 50 units. In my case I was able to buy only ?t at a time. | |||
Marsha Hicks | Tir A 2 The Watchtower |
Independent | The Dweller | Exploration rank Surveyor or higher | Provide 10 units of mined Osmium. | Craft modules. | Cannons Collector Limpet Controller Fragment Cannons Fuel Scoop Fuel Transfer Limpet Controller Hatch Breaker Limpet Controller Multi-cannons Prospector Limpet Controller Refinery |
All grade 5 | This engineer is located in Colonia. |
Etienne Dorn | Los A 2 B Kraken's Retreat |
Independent | Liz Ryder | Trade rank Dealer or higher. | Provide 25 units of Occupied Escape Pods. | Craft modules. | Detailed Surface Scanner Frame Shift Wake Scanner Kill Warrant Scanner Life Support Manifest Scanner Plasma Accelerator Power Distributor Power Plant Sensors Rail Guns |
All grade 5 | This engineer is located in Colonia. |
Petra Olmanova | Asura 1 A Sanctuary |
Independent | Tod "The Blaster" McQuinn | Combat rank Expert or higher. | Provide 200 units of Progenitor Cells. | Craft modules. | Armour AFMU Chaff Launcher ECM Heat Sink Launcher Hull Reinforcement Package Mine Launcher Missile Rack Point Defence Seeker Missile Rack Torpedy Pylon |
All grade 5 | This engineer is located in Colonia. |
Mel Brandon | Luchtaine A 1 C The Brig |
Independent | Elvira Martuuk | Cordial or higher reputation with Colonia Council minor faction. Obtain an invitation mission from one of the stations in the Colonia region where the faction is present. | Provide 100,000 credits worth of bounty vouchers against The Nameless minor faction. | Craft modules. | Beam Laser Burst Laser Pulse Laser Shield Generator Thrusters Shield Booster FSD FSD Interdictor Shield Cell Bank |
All grade 5, except grade 4 for Shield Cell Bank | This engineer is located in Colonia. |
Chloe Sedesi | Shenve Shenve A 6 Cinder Dock |
Independent | Marco Qwent | Travel a distance of 5,000 light years or more from career start system. | Provide 25 units of Sensor Fragments. | Craft modules, or sell exploration data at Cinder Dock. | FSD Thrusters |
Both grade 3 | This engineer is located in the Witch Head Nebula. |
Blueprints overview
The following table lists blueprints, which engineers provide them, what modules they affect and what the effects are. The effect values come from applying the blueprint to an unmodified class 1 module - applying the blueprint to a module of a higher class should have the same general effects (e.g. "- Mass") but the effect values may differ.
Useful for exploration |
Blueprint | Module | Engineer | Grade | Cost | Primary effects | Side effects | Remarks | ||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Positive | Negative | Positive | Negative | |||||||||
Attribute | Min / Max | Attribute | Min / Max | |||||||||
Dirty Drive Tuning | Thrusters | Elvira Martuuk: 1-2 Professor Palin: 1-5 |
1 | 1 Specialised Legacy Firmware | + Optimal Multiplier | +4% to +10% | + Thermal Load + Power Draw - Integrity - Optimal Mass |
+20% to 0% +3% to 0% -6% to 0% -3% to 0% |
Mostly positive | |||
2 | 1 Specialised Legacy Firmware 1 Mechanical Equipment |
+10% to +14% | +39% to +10% +8% to +1% -12% to +2% -6% to -1% |
Slightly positive | ||||||||
3 | 1 Chromium 1 Specialised Legacy Firmware 1 Mechanical Equipment |
+14% to +20% | +61% to +20% +11% to +3% -18% to +3% -9% to -2% |
Slightly positive | ||||||||
4 | 1 Selenium 1 Modified Consumer Firmware 1 Configurable Components |
+20% to +25% | +79% to +29% +15% to +5% -24% to +5% -12% to -3% |
Mostly positive | ||||||||
5 | 1 Cadmium 1 Cracked Industrial Firmware 1 Pharmaceutical Isolators |
+25% to +29% | +100% to +39% +20% to +8% -30% to +8% -15% to -4% |
Extremely positive | ||||||||
Drive Strengthening | Thrusters | Elvira Martuuk: 1-2 Professor Palin: 1-5 |
1 | 1 Carbon | + Integrity - Thermal Load |
+14% to +29% 0% to -11% |
+ Mass - Optimal Multiplier |
+10% to 0% -3% to 0% |
Mostly positive | |||
2 | 1 Vanadium 1 Heat Conduction Wiring |
+29% to +50% -6% to -20% |
+20% to +5% -5% to -2% |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Heat Conduction Wiring 1 Shielding Sensors |
+45% to +70% -11% to -31% |
+31% to +10% -6% to -3% |
Mostly positive | ||||||||
4 | 1 High Density Composites 1 Heat Dispersion Plate 1 Compound Shielding |
+61% to +90% -15% to -40% |
+39% to +14% -9% to -4% |
Extremely positive | ||||||||
5 | 1 Proprietary Composites 1 Heat Exchangers 1 Imperial Shielding |
+75% to +111% -20% to -50% |
+50% to +20% -11% to -5% |
Extremely positive | ||||||||
Clean Drive Tuning | Thrusters | Elvira Martuuk: 1-2 Professor Palin: 1-5 |
1 | 1 Sulphur | + Optimal Multiplier - Thermal Load |
+1% to +5% -6% to -20% |
- Integrity - Optimal Mass + Power Draw |
-5% to 0% -2% to 0% +5% to 0% |
Mostly positive | |||
2 | 1 Specialised Legacy Firmware 1 Conductive Components |
+3% to +9% -11% to -31% |
-11% to -4% -4% to -1% +10% to +3% |
Slightly positive | ||||||||
3 | 1 Specialised Legacy Firmware 1 Conductive Components 1 Unexpected Emission Data |
+5% to +12% -15% to -40% |
-15% to -8% -6% to -2% +14% to +8% |
Slightly positive | ||||||||
4 | 1 Modified Consumer Firmware 1 Conductive Ceramics 1 Decoded Emission Data |
+8% to +14% -20% to -50% |
-20% to -12% -8% to -3% +20% to +11% |
Mostly positive | ||||||||
5 | 1 Tin 1 Conductive Ceramics 1 Abnormal Compact Emissions Data |
+10% to +18% -25% to -61% |
-25% to -16% -10% to -4% +25% to +15% |
Extremely positive | ||||||||
Faster FSD Boot Sequence | FSD | Elvira Martuuk: 1-5 Professor Palin: 1-3 |
1 | 1 Grid Resistors | - Boot Time | -10% to -20% | + Thermal Load + Power Draw - Integrity |
+5% to 0% +4% to 0% -5% to 0% |
Mostly positive | |||
2 | 1 Chromium 1 Grid Resistors |
-20% to -35% | +10% to +5% +10% to +2% -11% to -3% |
Slightly positive | ||||||||
3 | 1 Selenium 1 1 Grid Resistors 1 Heat Dispersion Plate |
-31% to -50% | +14% to +10% +14% to +5% -15% to -6% |
Slightly positive | ||||||||
4 | 1 Hybrid Capacitors 1 Heat Exchangers 1 Cadmium |
-40% to -65% | +20% to +14% +20% to +9% -20% to -9% |
Mostly positive | ||||||||
5 | 1 Electrochemical Arrays 1 Heat Vanes 1 Tellurium |
-50% to -80% | +25% to +20% +25% to +11% -25% to -12% |
Extremely positive | ||||||||
Increased FSD Range | FSD | Elvira Martuuk: 1-5 Professor Palin: 1-3 |
1 | 1 Atypical Disrupted Wake Echoes | + Optimised Mass | +3% to +10% | + Mass - Integrity + Power Draw |
+5% to 0% -5% to 0% +4% to 0% |
Mostly positive | |||
2 | 1 Atypical Disrupted Wake Echoes 1 Chemical Processors |
+8% to +20% | +14% to +5% -11% to -3% +10% to +2% |
Slightly positive | ||||||||
3 | 1 Phosphorus 1 Strange Wake Solutions 1 Chemical Processors |
+11% to +31% | +25% to +10% -15% to -6% +14% to +5% |
Slightly positive | ||||||||
4 | 1 Manganese 1 Chemical Distillery 1 Eccentric Hyperspace Trajectories |
+17% to +40% | +35% to +14% -20% to -9% +20% to +9% |
Mostly positive | ||||||||
5 | 1 Arsenic 1 Chemical Manipulators 1 Datamined Wake Exceptions |
+20% to +50% | +45% to +20% -25% to -12% +25% to +11% |
Extremely positive | ||||||||
Shielded FSD | FSD | Elvira Martuuk: 1-5 Professor Palin: 1-3 |
1 | 1 Nickel | + Integrity - Thermal Load |
+20% to +25% 0% to -6% |
+ Mass - Optimised Mass |
+31% to +25% -3% to 0% |
Mostly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+29% to +50% -6% to -10% |
+35% to +20% -6% to -2% |
Slightly positive | ||||||||
3 | 1 Carbon 1 Zinc 1 Shielding Sensors |
+40% to +75% -10% to -15% |
+39% to +14% -9% to -4% |
Mostly positive | ||||||||
4 | 1 Vanadium 1 High Density Composites 1 Compound Shielding |
+50% to +100% -15% to -20% |
+45% to +10% -12% to -6% |
Mostly positive | ||||||||
5 | 1 Tungsten 1 Proprietary Composites 1 Imperial Shielding |
+61% to +125% -20% to -25% |
+50% to +5% -15% to -8% |
Extremely positive | ||||||||
High Charge Capacity Power Distributor | Power Distributor | The Dweller: 1-5 Marco Qwent: 1-3 Hera Tani: 1-3 |
1 | 1 Sulphur | + Weapons Capacity + Engines Capacity + Systems Capacity |
+3% to +10% +3% to +10% +3% to +10% |
- Weapons Recharge - Engines Recharge - Systems Recharge |
-6% to 0% -6% to 0% -6% to 0% |
Mostly positive | |||
2 | 1 Chromium 1 Specialised Legacy Firmware |
+8% to +14% +8% to +14% +8% to +14% |
-11% to -5% -11% to -5% -11% to -5% |
Slightly positive | ||||||||
3 | 1 Chromium 1 Specialised Legacy Firmware 1 High Density Composites |
+12% to +20% +11% to +20% +11% to +20% |
-15% to -8% -15% to -8% -15% to -8% |
Slightly positive | ||||||||
4 | 1 Selenium 1 Modified Consumer Firmware 1 Proprietary Composites |
+15% to +25% | -20% to -12% | Mostly positive | ||||||||
5 | 1 Cracked Industrial Firmware 1 Proprietary Composites 1 Military Supercapacitors |
+20% to +31% | -25% to -16% | Extremely positive | ||||||||
Charge Enhanced Power Distributor | Power Distributor | The Dweller: 1-5 Marco Qwent: 1-3 Hera Tani: 1-3 |
1 | 1 Specialised Legacy Firmware | + Weapons Recharge + Engines Recharge + Systems Recharge |
+3% to +12% +3% to +11% +3% to +11% |
- Weapons Capacity - Engines Capacity - Systems Capacity |
-3% to 0% -3% to 0% -3% to 0% |
Mostly positive | |||
2 | 1 Specialised Legacy Firmware 1 Chemical Processors |
+8% to +18% +8% to +18% +8% to +18% |
-6% to -1% -6% to -2% -6% to -2% |
Slightly positive | ||||||||
3 | 1 Modified Consumer Firmware 1 Grid Resistors 1 Chemical Distillery |
+12% to +23% +11% to +23% +11% to +23% |
-9% to -2% -10% to -2% -10% to -2% |
Slightly positive | ||||||||
4 | 1 Cracked Industrial Firmware 1 Chemical Manipulators 1 Hybrid Capacitors |
+15% to +29% | -12% to -3% | Mostly positive | ||||||||
5 | 1 Cracked Industrial Firmware 1 Chemical Manipulators 1 Exquisite Focus Crystals |
+20% to +35% | -15% to -5% | Extremely positive | ||||||||
Engine Focused Power Distributor | Power Distributor | The Dweller: 1-3 Marco Qwent: 1-3 Hera Tani: 1-3 |
1 | 1 Sulphur | + Engines Capacity + Engines Recharge |
+5% to +20% +1% to +10% |
- Weapons Capacity - Weapons Recharge - Systems Capacity - Systems Recharge |
-6% to 0% -2% to 0% -6% to 0% -6% to 0% |
Mostly positive | |||
2 | 1 Sulphur 1 Conductive Components |
+10% to +31% +3% to +14% |
-11% to -2% -5% to -1% -10% to -2% -11% to -2% |
Slightly positive | ||||||||
3 | 1 Chromium 1 Anomalous Bulk Scan Data 1 Electrochemical Arrays |
+14% to +39% +5% to +20% |
-15% to -5% -6% to -2% -15% to -5% -15% to -5% |
Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
System Focused Power Distributor | Power Distributor | The Dweller: 1-3 Marco Qwent: 1-3 Hera Tani: 1-3 |
1 | 1 Sulphur | + Systems Capacity + Systems Recharge |
+5% to +20% +1% to +10% |
- Engines Capacity - Engines Recharge - Weapons Capacity - Weapons Recharge |
-6% to 0% -2% to 0% -6% to 0% -6% to 0% |
Mostly positive | |||
2 | 1 Sulphur 1 Conductive Components |
+10% to +31% +3% to +14% |
-10% to -2% -5% to -1% -11% to -2% -11% to -2% |
Slightly positive | ||||||||
3 | 1 Chromium 1 Anomalous Bulk Scan Data 1 Electrochemical Arrays |
+14% to +39% +5% to +20% |
-15% to -5% -6% to -2% -15% to -5% -15% to -5% |
Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Weapon Focused Power Distributor | Power Distributor | The Dweller: 1-3 Marco Qwent: 1-3 Hera Tani: 1-3 |
1 | 1 Sulphur | + Weapons Capacity + Weapons Recharge |
+4% to +20% +1% to +10% |
- Systems Capacity - Systems Recharge - Engines Capacity - Engines Recharge |
-6% to 0% -2% to 0% -6% to 0% -6% to 0% |
Mostly positive | |||
2 | 1 Sulphur 1 Conductive Components |
+10% to +29% +3% to +14% |
-10% to -2% -5% to -1% -10% to -2% -11% to -2% |
Slightly positive | ||||||||
3 | 1 Selenium 1 Anomalous Bulk Scan Data 1 Hybrid Capacitors |
+14% to +39% +5% to +20% |
-15% to -5% -6% to -2% -15% to -5% -15% to -5% |
Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Shielded Power Distributor | Power Distributor | The Dweller: 1-5 Marco Qwent: 1-3 Hera Tani: 1-3 |
1 | 1 Worn Shield Emitters | + Integrity | +10% to +39% | + Mass | +4% to 0% | Mostly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+20% to +61% | +10% to +2% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+31% to +81% | +14% to +5% | Slightly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+39% to +100% | +20% to +8% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+50% to +120% | +25% to +11% | Extremely positive | ||||||||
Efficient Weapon | Burst Laser | The Dweller: 1-3 | 1 | 1 Sulphur | + Thermal Load + Damage Per Second + Damage - Power Draw - Distributor Draw |
-31% to -40% 0% to +5% 0% to +4% - - |
None | Mostly positive | ||||
2 | 1 Sulphur 1 Heat Dispersion Plate |
-36% to -45% +1% to +5% +1% to +4% 0% to -11% - |
Slightly positive | |||||||||
3 | 1 Chromium 1 Exceptional Scrambled Emission 1 Heat Exchangers |
-40% to -50% +1% to +7% +1% to +7% -6% to -20% -15% to -25% |
Mostly positive | |||||||||
4 | ? | ? | ? | |||||||||
5 | ? | ? | ? | |||||||||
Focused Weapon | Burst Laser | The Dweller: 1-3 | 1 | 1 Iron | + Maximum Range + Damage Falloff Start + Armour Piercing |
+10% to +20% +10% to +20% - |
- Damage Per Second - Rate of Fire + Thermal Load |
-14% to -6% -14% to -6% +50% to +39% |
Mostly positive | |||
2 | 1 Iron 1 Conductive Components |
+20% to +39% +20% to +40% 0% to +10% |
-12% to -5% -12% to -5% +39% to +29% |
Slightly positive | ||||||||
3 | 1 Iron 1 Chromium 1 Conductive Ceramics |
+29% to +61% +31% to +61% +10% to +20% |
-9% to -4% -9% to -4% +29% to +20% |
Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Light Weight Mount | Burst Laser | The Dweller: 1-3 | 1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -3% to -5% -2% to -5% |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -5% to -8% -5% to -8% |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -13% -6% to -12% |
-40% to -20% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Long Range Weapon | Burst Laser | The Dweller: 1-3 | 1 | 1 Sulphur | + Maximum Range + Damage Falloff Start |
+10% to +20% +560% to +621% |
+ Mass + Power Draw |
+10% to 0% - |
Mostly positive | |||
2 | 1 Sulphur 1 Modified Consumer Firmware |
+20% to +39% +621% to +740% |
+20% to +4% +4% to 0% |
Slightly positive | ||||||||
3 | 1 Sulphur 1 Modified Consumer Firmware 1 Focus Crystals |
+29% to +61% +679% to +860% |
+29% to +10% +10% to +4% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Overcharged Weapon | Burst Laser | The Dweller: 1-3 | 1 | 1 Nickel | + Damage Per Second + Damage |
+15% to +25% +14% to +25% |
+ Distributor Draw + Jitter + Thermal Load |
+89% to +45% +1 to +0.4 +44% to +29% |
Mostly positive | |||
2 | 1 Nickel 1 Conductive Components |
+20% to +31% +20% to +29% |
+79% to +39% +0.8 to +0.3 +29% to +14% |
Mostly positive | ||||||||
3 | 1 Nickel 1 Conductive Components 1 Electrochemical Arrays |
+25% to +34% +25% to +35% |
+70% to +35% +0.6 to +0.2 +14% to 0% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Rapid Fire Modification | Burst Laser | The Dweller: 1-3 | 1 | 1 Mechanical Scrap | + Damage Per Second + Rate of Fire - Reload Time - Distributor Draw |
+5% to +12% +14% to +18% 0 - |
- Damage + Jitter |
-7% to -6% +2.5 to +1.25 |
Mostly positive | |||
2 | 1 Mechanical Scrap 1 Heat Dispersion Plate |
+8% to +15% +18% to +25% 0 -11% to -20% |
-10% to -7% +2 to +1 |
Mostly positive | ||||||||
3 | 1 Mechanical Equipment 1 Specialised Legacy Firmware 1 Precipitated Alloys |
+10% to +19% +25% to +31% 0 -15% to -25% |
-12% to -10% +1.5 to +0.75 |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Short Range Blaster | Burst Laser | The Dweller: 1-3 | 1 | 1 Nickel | + Damage Per Second + Damage |
+3% to +9% +3% to +9% |
- Maximum Range + Thermal Load - Integrity |
-36% to -11% - - |
Mostly positive | |||
2 | 1 Nickel 1 Modified Consumer Firmware |
+8% to +18% +8% to +18% |
-45% to -20% +20% to +10% - |
Slightly positive | ||||||||
3 | 1 Nickel 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+12% to +28% +11% to +26% |
-55% to -31% +29% to +20% -20% to -10% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Sturdy Mount | Burst Laser | The Dweller: 1-3 | 1 | 1 Nickel | + Integrity - Thermal Load + Armour Piercing |
+20% to +50% 0% to -11% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -6% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -11% to -21% 0% to +14% |
+150% to +100% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Efficient Weapon | Pulse Laser | The Dweller: 1-4 | 1 | 1 Sulphur | + Thermal Load + Damage Per Second + Damage - Power Draw - Distributor Draw |
-31% to -40% 0% to +4% 0% to +4% - - |
None | Mostly positive | ||||
2 | 1 Sulphur 1 Heat Dispersion Plate |
-36% to -45% +1% to +5% +1% to +5% 0% to -11% - |
Slightly positive | |||||||||
3 | 1 Chromium 1 Exceptional Scrambled Emission 1 Heat Exchangers |
-40% to -50% +1% to +7% +1% to +7% -6% to -20% -15% to -25% |
Mostly positive | |||||||||
4 | 1 Selenium 1 Irregular Emission Data 1 Heat Vanes |
-45% to -55% +2% to +8% +2% to +8% -11% to -31% -20% to -31% |
Mostly positive | |||||||||
5 | ? | ? | ? | |||||||||
Focused Weapon | Pulse Laser | The Dweller: 1-4 | 1 | 1 Iron | + Maximum Range + Damage Falloff Start + Armour Piercing |
+10% to +20% +10% to +20% - |
- Damage Per Second - Rate of Fire + Thermal Load |
-17% to -8% -17% to -8% +50% to +39% |
Mostly positive | |||
2 | 1 Iron 1 Conductive Components |
+20% to +39% +20% to +40% 0% to +10% |
-14% to -6% -14% to -6% +39% to +29% |
Slightly positive | ||||||||
3 | 1 Iron 1 Chromium 1 Conductive Ceramics |
+29% to +61% +31% to +61% +10% to +20% |
-11% to -4% -11% to -4% +29% to +20% |
Mostly positive | ||||||||
4 | 1 Germanium 1 Focus Crystals 1 Polymer Capacitors |
+39% to +79% +40% to +81% +20% to +39% |
-8% to -2% -8% to -2% +20% to +10% |
Extremely positive | ||||||||
5 | ? | ? | ? | ? | ||||||||
Light Weight Mount | Pulse Laser | The Dweller: 1-4 | 1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -2% to -5% -2% to -4% |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -5% to -8% -4% to -8% |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -12% -6% to -12% |
-40% to -20% | Mostly positive | ||||||||
4 | 1 Conductive Components 1 Phase Alloys 1 Proto Light Alloys |
-40% to -75% -8% to -16% -8% to -16% |
-50% to -31% | Mostly positive | ||||||||
5 | ? | ? | ? | ? | ||||||||
Long Range Weapon | Pulse Laser | The Dweller: 1-4 | 1 | 1 Sulphur | + Maximum Range + Damage Falloff Start |
+10% to +20% +560% to +621% |
+ Mass + Power Draw |
+10% to 0% - |
Mostly positive | |||
2 | 1 Sulphur 1 Modified Consumer Firmware |
+20% to +39% +621% to +740% |
+20% to +4% +4% to 0% |
Slightly positive | ||||||||
3 | 1 Sulphur 1 Modified Consumer Firmware 1 Focus Crystals |
+29% to +61% +679% to +860% |
+29% to +10% +10% to +4% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Focus Crystals |
+39% to +79% +740% to +980% |
+39% to +14% +14% to +10% |
Extremely positive | ||||||||
5 | ? | ? | ? | ? | ||||||||
Overcharged Weapon | Pulse Laser | The Dweller: 1-4 | 1 | 1 Nickel | + Damage Per Second + Damage |
+14% to +25% +14% to +25% |
+ Distributor Draw + Jitter + Thermal Load |
+89% to +45% +1 to +0.4 +45% to +29% |
Mostly positive | |||
2 | 1 Nickel 1 Conductive Components |
+20% to +29% +20% to +29% |
+81% to +39% +0.8 to +0.3 +29% to +14% |
Mostly positive | ||||||||
3 | 1 Nickel 1 Conductive Components 1 Electrochemical Arrays |
+25% to +35% +25% to +35% |
+70% to +35% +0.6 to +0.2 +14% to 0% |
Slightly positive | ||||||||
4 | 1 Zinc 1 Conductive Ceramics 1 Polymer Capacitors |
+29% to +39% +29% to +39% |
+61% to +31% +0.4 to +0.1 - |
Slightly positive | ||||||||
5 | ? | ? | ? | ? | ||||||||
Rapid Fire Modification | Pulse Laser | The Dweller: 1-4 | 1 | 1 Mechanical Scrap | + Damage Per Second + Rate of Fire - Reload Time - Distributor Draw |
+9% to +18% +17% to +25% 0 - |
- Damage + Jitter |
-7% to -6% +2.5 to +1.25 |
Mostly positive | |||
2 | 1 Mechanical Scrap 1 Heat Dispersion Plate |
+14% to +23% +25% to +34% 0 -10% to -20% |
-10% to -7% +2 to +1 |
Mostly positive | ||||||||
3 | 1 Mechanical Equipment 1 Specialised Legacy Firmware 1 Precipitated Alloys |
+18% to +29% +34% to +42% 0 -15% to -25% |
-12% to -10% +1.5 to +0.75 |
Slightly positive | ||||||||
4 | 1 Mechanical Components 1 Modified Consumer Firmware 1 Thermic Alloys |
+25% to +37% +42% to +53% 0 -20% to -31% |
-13% to -12% +1 to +0.5 |
Mostly positive | ||||||||
5 | ? | ? | ? | ? | ||||||||
Short Range Blaster | Pulse Laser | The Dweller: 1-4 | 1 | 1 Nickel | + Damage Per Second + Damage |
+3% to +8% +3% to +9% |
- Maximum Range + Thermal Load - Integrity |
-36% to -11% - - |
Mostly positive | |||
2 | 1 Nickel 1 Modified Consumer Firmware |
+8% to +18% +8% to +18% |
-45% to -20% +20% to +10% - |
Slightly positive | ||||||||
3 | 1 Nickel 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+11% to +26% +11% to +26% |
-55% to -31% +29% to +20% -20% to -10% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+15% to +35% +15% to +35% |
-65% to -40% +39% to +29% -31% to -20% |
Extremely positive | ||||||||
5 | ? | ? | ? | ? | ||||||||
Sturdy Mount | Pulse Laser | The Dweller: 1-4 | 1 | 1 Nickel | + Integrity - Thermal Load + Armour Piercing |
+20% to +50% 0% to -11% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -5% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -11% to -20% 0% to +14% |
+150% to +100% | Mostly positive | ||||||||
4 | 1 Zinc 1 Molybdenum 1 Tungsten |
+81% to +200% -15% to -25% +10% to +31% |
+200% to +150% | Mostly positive | ||||||||
5 | ? | ? | ? | ? | ||||||||
Efficient Weapon | Beam Laser | The Dweller: 1-3 | 1 | 1 Sulphur | + Thermal Load + Damage Per Second - Power Draw - Distributor Draw |
-31% to -40% 0% to +4% - - |
None | Mostly positive | ||||
2 | 1 Sulphur 1 Heat Dispersion Plate |
-36% to -45% +1% to +5% 0% to -11% - |
Slightly positive | |||||||||
3 | 1 Chromium 1 Exceptional Scrambled Emission 1 Heat Exchangers |
-40% to -50% +1% to +7% -6% to -20% -16% to -25% |
Mostly positive | |||||||||
4 | ? | ? | ? | |||||||||
5 | ? | ? | ? | |||||||||
Light Weight Mount | Beam Laser | The Dweller: 1-3 | 1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -2% to -4% -3% to -5% |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -4% to -8% -5% to -9% |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -12% -6% to -12% |
-40% to -20% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Long Range Weapon | Beam Laser | The Dweller: 1-3 | 1 | 1 Sulphur | + Maximum Range + Damage Falloff Start |
+10% to +20% +450% to +500% |
+ Mass + Power Draw |
+10% to 0% - |
Mostly positive | |||
2 | 1 Sulphur 1 Modified Consumer Firmware |
+20% to +39% +500% to +600% |
+20% to +4% +4% to 0% |
Slightly positive | ||||||||
3 | 1 Sulphur 1 Modified Consumer Firmware 1 Focus Crystals |
+29% to +61% +550% to +700% |
+29% to +10% +10% to +4% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Overcharged Weapon | Beam Laser | The Dweller: 1-3 | 1 | 1 Nickel | + Damage Per Second | +14% to +25% | + Distributor Draw + Jitter + Thermal Load |
+89% to +45% +1 to +0.4 +45% to +29% |
Mostly positive | |||
2 | 1 Nickel 1 Conductive Components |
+20% to +29% | +79% to +39% +0.8 to +0.3 +29% to +14% |
Mostly positive | ||||||||
3 | 1 Nickel 1 Conductive Components 1 Electrochemical Arrays |
+25% to +35% | +69% to +35% +0.6 to +0.2 +14% to 0% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Short Range Blaster | Beam Laser | The Dweller: 1-3 | 1 | 1 Nickel | + Damage Per Second | +3% to +9% | - Maximum Range + Thermal Load - Integrity |
-36% to -11% - - |
Mostly positive | |||
2 | 1 Nickel 1 Modified Consumer Firmware |
+8% to +18% | -45% to -20% +20% to +10% - |
Slightly positive | ||||||||
3 | 1 Nickel 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+11% to +26% | -55% to -31% +29% to +20% -20% to -10% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Sturdy Mount | Beam Laser | The Dweller: 1-3 | 1 | 1 Nickel | + Integrity - Thermal Load + Armour Piercing |
+20% to +50% 0% to -11% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -6% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -11% to -21% 0% to +14% |
+150% to +100% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Expanded Probe Scanning Radius Scanner | Surface Scanners | Lei Cheung: 1-5 Hera Tani: 1-5 Juri Ishmaak: 1-5 Tiana Fortune: 1-3 Bill Turner: 1-5 |
1 | 1 Mechanical Scrap | + Probe Radius | +22% | None. Actually there is a mass increase penalty (+20/40/60/80/100%), but due to the DSS having no mass the penalty has no effect. | Obsolete | ||||
2 | 1 Germanium 1 Mechanical Scrap |
+24% | ||||||||||
3 | 1 Germanium 1 Mechanical Scrap 1 Phase Alloys |
+26% | ||||||||||
4 | 1 Niobium 1 Mechanical Equipment 1 Proto Light Alloys |
+28% | ||||||||||
5 | 1 Tin 1 Mechanical Components 1 Proto Radiolic Alloys |
+30% | ||||||||||
Long Range Scanner | Sensors | Lei Cheung: 1-5 Hera Tani: 1-3 Juri Ishmaak: 1-5 Tiana Fortune: 1-5 Bill Turner: 1-5 |
1 | 1 Iron | + Typical Emission Range | +10% to +14% | - Target Scan Angle + Mass |
-20% to -10% +39% to +20% |
Slightly positive | |||
2 | 1 Iron 1 Hybrid Capacitors |
+19% to +29% | -30% to -15% +79% to +39% |
Slightly positive | ||||||||
3 | 1 Iron 1 Hybrid Capacitors 1 Unexpected Emission Data |
+29% to +44% | -40% to -20% +120% to +61% |
Mostly positive | ||||||||
4 | 1 Germanium 1 Electrochemical Arrays 1 Decoded Emission Data |
+39% to +59% | -50% to -25% +159% to +79% |
Mostly positive | ||||||||
5 | 1 Niobium 1 Polymer Capacitors 1 Abnormal Compact Emissions Data |
+50% to +75% | -61% to -30% +200% to +100% |
Extremely positive | ||||||||
Wide Angle Scanner | Sensors | Lei Cheung: 1-5 Hera Tani: 1-3 Juri Ishmaak: 1-5 Tiana Fortune: 1-5 Bill Turner: 1-5 |
1 | 1 Mechanical Scrap | + Target Scan Angle | +20% to +40% | - Typical Emission Range + Power Draw |
-9% to -5% +20% to +10% |
Slightly positive | |||
2 | 1 Germanium 1 Mechanical Scrap |
+40% to +81% | -17% to -9% +39% to +20% |
Slightly positive | ||||||||
3 | 1 Germanium 1 Mechanical Scrap 1 Classified Scan Databanks |
+61% to +120% | -24% to -12% +61% to +29% |
Mostly positive | ||||||||
4 | 1 Niobium 1 Mechanical Equipment 1 Divergent Scan Data |
+81% to +161% | -32% to -17% +79% to +39% |
Mostly positive | ||||||||
5 | 1 Tin 1 Mechanical Components 1 Classified Scan Fragment |
+100% to +200% | -41% to -21% +100% to +50% |
Extremely positive | ||||||||
Light Weight Scanner | Sensors | Lei Cheung: 1-5 Hera Tani: 1-3 Juri Ishmaak: 1-5 Tiana Fortune: 1-5 Bill Turner: 1-5 |
1 | 1 Phosphorus | - Mass | -20% to -40% | - Integrity - Target Scan Angle |
-15% to -10% -10% to -5% |
Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-31% to -50% | -31% to -20% -15% to -10% |
Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-40% to -61% | -45% to -31% -20% to -15% |
Mostly positive | ||||||||
4 | 1 Conductive Components 1 Phase Alloys 1 Proto Light Alloys |
-50% to -70% | -61% to -40% -25% to -20% |
Mostly positive | ||||||||
5 | 1 Conductive Ceramics 1 Proto Radiolic Alloys 1 Proto Light Alloys |
-61% to -80% | -75% to -50% -30% to -25% |
Extremely positive | ||||||||
Kinetic Resistant Shields | Shield Generator | Elvira Martuuk: 1-3 Lei Cheung: 1-5 |
1 | 1 Distorted Shield Cycle Recordings | + Kinetic Resistance + Integrity |
+3 to +6 0% to +20% |
- Thermal Resistance | -6 to 0 | Mostly positive | |||
2 | 1 Distorted Shield Cycle Recordings 1 Modified Consumer Firmware |
+4.2 to +12 +5% to +25% |
-12 to -2.4 | Slightly positive | ||||||||
3 | 1 Selenium 1 Distorted Shield Cycle Recordings 1 Modified Consumer Firmware |
+5.4 to +18 +10% to +31% |
-18 to -4.8 | Mostly positive | ||||||||
4 | 1 Mercury 1 Inconsistent Shield Soak Analysis Focus Crystals |
+6.6 to +24 +14% to +35% |
-24 to -7.2 | Extremely positive | ||||||||
5 | 1 Ruthenium 1 Untypical Shield Scans 1 Refined Focus Crystals |
+7.8 to +30 +20% to +39% |
-30 to -9.6 | Extremely positive | ||||||||
Enhanced, Low Power Shields | Shield Generator | Elvira Martuuk: 1-3 Lei Cheung: 1-5 |
1 | 1 Distorted Shield Cycle Recordings | - Power Draw - Mass + Optimal Strength |
-12% to -20% 0% to -8% - |
- Optimal Hull Mass - Integrity |
-4% to 0% -10% to -6% |
Mostly positive | |||
2 | 1 Germanium 1 Distorted Shield Cycle Recordings |
-14% to -25% -5% to -16% - |
-6% to -2% -20% to -10% |
Slightly positive | ||||||||
3 | 1 Germanium 1 Distorted Shield Cycle Recordings 1 Precipitated Alloys |
-16% to -31% -8% to -24% 0% to +1% |
-10% to -3% -31% to -15% |
Slightly positive | ||||||||
4 | 1 Niobium 1 Inconsistent Shield Soak Analysis 1 Thermic Alloys |
-18% to -35% -13% to -32% 0% to +3% |
-12% to -4% -40% to -20% |
Mostly positive | ||||||||
5 | 1 Tin 1 Untypical Shield Scans 1 Military Grade Alloys |
-20% to -40% -16% to -40% 0% to +5% |
-16% to -5% -50% to -25% |
Extremely positive | ||||||||
Reinforced Shields | Shield Generator | Elvira Martuuk: 1-3 Lei Cheung: 1-5 |
1 | 1 Phosphorus | + Optimal Strength + Kinetic Resistance + Thermal Resistance + Explosive Resistance |
+4% to +10% 0 to +1.8 0 to +3.6 0 to +1.5 |
- Broken Regen Rate - Regen Rate + Distributor Draw |
-21% to -15% - - |
Mostly positive | |||
2 | 1 Phosphorus 1 Conductive Components |
+7% to +14% +1.2 to +3.6 +2.4 to +7.2 +1 to +3 |
-24% to -12% -6% to -5% - |
Slightly positive | ||||||||
3 | 1 Phosphorus 1 Conductive Components 1 Mechanical Components |
+9% to +20% +2.4 to +5.4 +4.8 to +10.8 +2 to +4.5 |
-27% to -10% -10% to -3% +4% to 0% |
Slightly positive | ||||||||
4 | 1 Manganese 1 Conductive Ceramics 1 Configurable Components |
+11% to +25% +3.6 to +7.2 +7.2 to +14.4 +3 to +6 |
-31% to -6% -12% to -2% +10% to +4% |
Mostly positive | ||||||||
5 | 1 Arsenic 1 Conductive Polymers 1 Improvised Components |
+12% to +29% +4.8 to +9 +9.6 to +18 +4 to +7.5 |
-34% to -3% -15% to -1% +14% to +10% |
Extremely positive | ||||||||
Thermal Resistant Shields | Shield Generator | Elvira Martuuk: 1-3 Lei Cheung: 1-5 |
1 | 1 Distorted Shield Cycle Recordings | + Thermal Resistance + Integrity |
+6 to +12 0% to +20% |
- Kinetic Resistance | -3 to 0 | Mostly positive | |||
2 | 1 Germanium 1 Distorted Shield Cycle Recordings |
+8.4 to +24 +5% to +25% |
-6 to -1.2 | Slightly positive | ||||||||
3 | 1 Selenium 1 Germanium 1 Distorted Shield Cycle Recordings |
+10.8 to +36 +10% to +31% |
-9 to -2.4 | Mostly positive | ||||||||
4 | 1 Mercury 1 Inconsistent Shield Soak Analysis 1 Focus Crystals |
+13.2 to +48 +14% to +35% |
-12 to -3.6 | Extremely positive | ||||||||
5 | 1 Ruthenium 1 Untypical Shield Scans 1 Refined Focus Crystals |
+15.6 to +60 +20% to +39% |
-15 to -4.8 | Extremely positive | ||||||||
Blast Resistant Shield Booster | Shield Booster | Lei Cheung: 1-3 | 1 | 1 Iron | + Explosive Resistance | +2 to +5 | - Kinetic Resistance - Thermal Resistance |
-2 to 0 -2 to 0 |
Mostly positive | |||
2 | 1 Iron 1 Conductive Components |
+7 to +10 | -3 to -1 -3 to -1 |
Slightly positive | ||||||||
3 | 1 Iron 1 Conductive Components 1 Focus Crystals |
+12 to +15 | -4 to -2 -4 to -2 |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Heavy Duty Shield Booster | Shield Booster | Lei Cheung: 1-3 | 1 | 1 Grid Resistors | + Shield Boost + Integrity |
+28% to +56% 0% to +2% |
+ Mass + Power Draw |
+100% to +50% +4% to 0% |
Mostly positive | |||
2 | 1 Hybrid Capacitors 1 Distorted Shield Cycle Recordings |
+75% to +112% +2% to +5% |
+150% to +100% +10% to +4% |
Slightly positive | ||||||||
3 | 1 Niobium 1 Hybrid Capacitors 1 Distorted Shield Cycle Recordings |
+122% to +168% +5% to +9% |
+200% to +150% +14% to +10% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Kinetic Resistant Shield Booster | Shield Booster | Lei Cheung: 1-3 | 1 | 1 Iron | + Kinetic Resistance | +2 to +5 | - Thermal Resistance - Explosive Resistance |
-2 to 0 -2 to 0 |
Mostly positive | |||
2 | 1 Germanium 1 Grid Resistors |
+7 to +10 | -3 to -1 -3 to -1 |
Slightly positive | ||||||||
3 | 1 Salvaged Alloys 1 Hybrid Capacitors 1 Focus Crystals |
+12 to +15 | -4 to -2 -4 to -2 |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Resistance Augmented Shield Booster | Shield Booster | Lei Cheung: 1-3 | 1 | 1 Phosphorus | + Kinetic Resistance + Thermal Resistance + Explosive Resistance |
+1 to +3 +1 to +3 +1 to +3 |
+ Power Draw - Integrity |
+8% to 0% -5% to 0% |
Mostly positive | |||
2 | 1 Phosphorus 1 Conductive Components |
+2.5 to +6 +2.5 to +6 +2.5 to +6 |
+15% to +3% -8% to -2% |
Slightly positive | ||||||||
3 | 1 Phosphorus 1 Conductive Components 1 Focus Crystals |
+6 to +7.5 +6 to +7.5 +6 to +7.5 |
+23% to +8% -12% to -5% |
Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Thermal Resistant Shield Booster | Shield Booster | Lei Cheung: 1-3 | 1 | 1 Iron | + Thermal Resistance | +2 to +5 | - Explosive Resistance - Kinetic Resistance |
-2 to 0 -2 to 0 |
Mostly positive | |||
2 | 1 Germanium 1 Heat Conduction Wiring |
+7 to +10 | -3 to -1 -3 to -1 |
Slightly positive | ||||||||
3 | 1 Heat Dispersion Plate 1 Heat Conduction Wiring 1 Focus Crystals |
+12 to +15 | -4 to -2 -4 to -2 |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Efficient Weapon | Cannons | Tod "The Blaster" McQuinn: 1-2 The Sarge: 1-5 |
1 | 1 Sulphur | + Thermal Load + Damage Per Second + Damage - Power Draw - Distributor Draw |
-31% to -40% 0% to +4% 0% to +4% - - |
None | Mostly positive | ||||
2 | 1 Sulphur 1 Heat Dispersion Plate |
-36% to -45% +1% to +5% +1% to +5% 0% to -11% - - |
Slightly positive | |||||||||
3 | 1 Chromium 1 Exceptional Scrambled Emission 1 Heat Exchangers |
-40% to -50% +1% to +7% +1% to +7% -5% to -20% -15% to -25% |
Mostly positive | |||||||||
4 | 1 Selenium 1 Irregular Emission Data 1 Heat Vanes |
-45% to -55% +2% to +8% +2% to +8% -11% to -31% -20% to -31% |
Mostly positive | |||||||||
5 | 1 Cadmium 1 Unexpected Emission Data 1 Proto Heat Radiators |
-50% to -61% +3% to +9% +3% to +9% -15% to -40% -25% to -36% |
Extremely positive | |||||||||
High Capacity Magazine | Cannons | Tod "The Blaster" McQuinn: 1-2 The Sarge: 1-5 |
1 | 1 Mechanical Scrap | + Ammo Clip Size + Ammo Maximum |
+17% to +66% +10% to +61% |
+ Mass + Reload Time + Power Draw |
+25% to +10% +20% to 0% +20% to +10% |
Mostly positive | |||
2 | 1 Vanadium 1 Mechanical Scrap |
+34% to +83% +20% to +70% |
+50% to +20% +39% to +10% +25% to +14% |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Niobium 1 Mechanical Scrap |
+34% to +83% +31% to +81% |
+75% to +29% +61% to +20% +29% to +20% |
Slightly positive | ||||||||
4 | 1 Tin 1 Mechanical Equipment 1 High Density Composites |
+50% to +100% +40% to +90% |
+100% to +39% +79% to +29% +35% to +25% |
Extremely positive | ||||||||
5 | 1 Military Supercapacitors 1 Mechanical Components 1 Proprietary Composites |
+50% to +100% +50% to +100% |
+125% to +50% +100% to +39% +39% to +29% |
Extremely positive | ||||||||
Light Weight Mount | Cannons | Tod "The Blaster" McQuinn: 1-2 The Sarge: 1-5 |
1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -2% to -5% -2% to -4% |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -5% to -8% -5% to -8% |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -12% -6% to -12% |
-40% to -20% | Mostly positive | ||||||||
4 | 1 Conductive Components 1 Phase Alloys 1 Proto Light Alloys |
-40% to -75% -8% to -17% -8% to -16% |
-50% to -31% | Mostly positive | ||||||||
5 | 1 Conductive Ceramics 1 Proto Radiolic Alloys 1 Proto Light Alloys |
-50% to -90% -11% to -20% -11% to -20% |
-61% to -40% | Extremely positive | ||||||||
Long Range Weapon | Cannons | Tod "The Blaster" McQuinn: 1-2 The Sarge: 1-5 |
1 | 1 Sulphur | + Maximum Range Shot Speed + Damage Falloff Start |
+10% to +20% +10% to +20% +10% to +20% |
+ Mass + Power Draw |
+10% to 0% - |
Mostly positive | |||
2 | 1 Sulphur 1 Modified Consumer Firmware |
+20% to +39% +20% to +39% +20% to +39% |
+20% to +4% +4% to 0% |
Slightly positive | ||||||||
3 | 1 Sulphur 1 Modified Consumer Firmware 1 Focus Crystals |
+29% to +61% +29% to +61% +29% to +61% |
+29% to +10% +10% to +4% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Focus Crystals |
+39% to +79% +39% to +81% +39% to +79% |
+39% to +14% +14% to +10% |
Extremely positive | ||||||||
5 | 1 Thermic Alloys 1 Cracked Industrial Firmware 1 Biotech Conductors |
+50% to +100% +50% to +100% +50% to +100% |
+50% to +20% +20% to +14% |
Extremely positive | ||||||||
Overcharged Weapon | Cannons | Tod "The Blaster" McQuinn: 1-2 The Sarge: 1-5 |
1 | 1 Nickel | + Damage Per Second + Damage |
+14% to +25% +14% to +25% |
+ Distributor Draw + Jitter + Thermal Load |
+89% to +45% +1 to +0.4 +45% to +29% |
Mostly positive | |||
2 | 1 Nickel 1 Conductive Components |
+20% to +29% +20% to +29% |
+79% to +39% +0.8 to +0.3 +29% to +14% |
Mostly positive | ||||||||
3 | 1 Nickel 1 Conductive Components 1 Electrochemical Arrays |
+25% to +35% +25% to +35% |
+70% to +35% +0.6 to +0.2 +14% to 0% |
Slightly positive | ||||||||
4 | 1 Zinc 1 Conductive Ceramics 1 Polymer Capacitors |
+29% to +39% +29% to +39% |
+61% to +29% +0.4 to +0.1 -17% to 0% |
Slightly positive | ||||||||
5 | 1 Zirconium 1 Conductive Polymers 1 Modified Embedded Firmware |
+35% to +45% +35% to +45% |
+50% to +25% - -17% to 0% |
Extremely positive | ||||||||
Rapid Fire Modification | Cannons | Tod "The Blaster" McQuinn: 1-2 The Sarge: 1-5 |
1 | 1 Mechanical Scrap | + Damage Per Second + Rate of Fire - Reload Time - Distributor Draw |
+9% to +18% +17% to +25% -11% to -25% - |
- Damage + Jitter |
-7% to -5% +2.5 to +1.25 |
Mostly positive | |||
2 | 1 Mechanical Scrap 1 Heat Dispersion Plate |
+14% to +23% +25% to +34% -20% to -36% -11% to -20% |
-10% to -7% +2 to +1 |
Mostly positive | ||||||||
3 | 1 Mechanical Equipment 1 Specialised Legacy Firmware 1 Precipitated Alloys |
+18% to +29% +34% to +42% -31% to -45% -15% to -25% |
-12% to -10% +1.5 to +0.75 |
Slightly positive | ||||||||
4 | 1 Mechanical Components 1 Modified Consumer Firmware 1 Thermic Alloys |
+25% to +37% +42% to +53% -40% to -55% -20% to -31% |
-13% to -12% +1 to +0.5 |
Mostly positive | ||||||||
5 | 1 Technetium 1 Configurable Components 1 Precipitated Alloys |
+31% to +45% +53% to +66% -50% to -65% -25% to -36% |
-15% to -13% +0.5 to +0.25 |
Mostly positive | ||||||||
Short Range Blaster | Cannons | Tod "The Blaster" McQuinn: 1-2 The Sarge: 1-5 |
1 | 1 Nickel | + Damage Per Second + Damage |
+3% to +9% +3% to +9% |
- Maximum Range + Thermal Load - Integrity |
-36% to -11% - - |
Mostly positive | |||
2 | 1 Nickel 1 Modified Consumer Firmware |
+8% to +18% +8% to +18% |
-45% to -20% +20% to +10% - |
Slightly positive | ||||||||
3 | 1 Nickel 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+11% to +26% +11% to +26% |
-55% to -31% +29% to +20% -20% to -10% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+15% to +35% +15% to +35% |
-65% to -40% +39% to +29% -31% to -20% |
Extremely positive | ||||||||
5 | 1 Configurable Components 1 Cracked Industrial Firmware 1 Biotech Conductors |
+20% to +45% +20% to +45% |
-75% to -50% +50% to +39% -40% to -31% |
Extremely positive | ||||||||
Sturdy Mount | Cannons | Tod "The Blaster" McQuinn: 1-2 The Sarge: 1-5 |
1 | 1 Nickel | + Integrity - Thermal Load Armour Piercing |
+20% to +50% 0% to -11% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -6% to -16% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -11% to -20% 0% to +14% |
+150% to +100% | Mostly positive | ||||||||
4 | 1 Zinc 1 Molybdenum 1 Tungsten |
+81% to +200% -16% to -25% +10% to +29% |
+200% to +150% | Mostly positive | ||||||||
5 | 1 Technetium 1 Molybdenum 1 High Density Composites |
+100% to +250% -20% to -31% +20% to +45% |
+250% to +200% | Extremely positive | ||||||||
Efficient Weapon | Multi-Cannons | Tod "The Blaster" McQuinn: 1-5 Zacariah Nemo (1-3) |
1 | 1 Sulphur | + Thermal Load + Damage Per Second + Damage - Power Draw - Distributor Draw |
-31% to -40% 0% to +4% 0% to +4% - - |
None | Mostly positive | ||||
2 | 1 Sulphur 1 Heat Dispersion Plate |
-36% to -45% +1% to +7% +1% to +5% 0% to -11% - |
Slightly positive | |||||||||
3 | 1 Chromium 1 Exceptional Scrambled Emission 1 Heat Exchangers |
-40% to -50% +2% to +7% +1% to +7% -6% to -20% -15% to -25% |
Mostly positive | |||||||||
4 | 1 Selenium 1 Irregular Emission Data 1 Heat Vanes |
-45% to -55% +2% to +8% +2% to +8% -11% to -31% -20% to -30% |
Mostly positive | |||||||||
5 | 1 Cadmium 1 Unexpected Emission Data 1 Proto Heat Radiators |
-50% to -61% +3% to +9% +3% to +9% -15% to -40% -25% to -36% |
Extremely positive | |||||||||
High Capacity Magazine | Multi-Cannons | Tod "The Blaster" McQuinn: 1-5 Zacariah Nemo (1-3) |
1 | 1 Mechanical Scrap | + Ammo Clip Size + Ammo Maximum |
+10% to +59% +10% to +61% |
+ Mass + Reload Time + Power Draw |
+25% to +10% +20% to 0% +20% to +10% |
Mostly positive | |||
2 | 1 Vanadium 1 Mechanical Scrap |
+20% to +69% +19% to +69% |
+50% to +20% +39% to +10% +25% to +14% |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Niobium 1 Mechanical Scrap |
+29% to +79% +29% to +79% |
+75% to +29% +61% to +20% +29% to +20% |
Slightly positive | ||||||||
4 | 1 Tin 1 Mechanical Equipment 1 High Density Composites |
+39% to +89% +39% to +89% |
+100% to +39% +79% to +29% +35% to +25% |
Extremely positive | ||||||||
5 | 1 Military Supercapacitors 1 Mechanical Components 1 Proprietary Composites |
+50% to +100% +50% to +100% |
+125% to +50% +100% to +39% +39% to +29% |
Extremely positive | ||||||||
Light Weight Mount | Multi-Cannons | Tod "The Blaster" McQuinn: 1-5 Zacariah Nemo (1-3) |
1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -3% to -5% -2% to -4% |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -5% to -8% -4% to -8% |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -12% -6% to -12% |
-40% to -20% | Mostly positive | ||||||||
4 | 1 Conductive Components 1 Phase Alloys 1 Proto Light Alloys |
-40% to -75% -8% to -16% -8% to -16% |
-50% to -31% | Mostly positive | ||||||||
5 | 1 Conductive Ceramics 1 Proto Radiolic Alloys 1 Proto Light Alloys |
-50% to -90% -11% to -20% -10% to -20% |
-61% to -40% | Extremely positive | ||||||||
Long Range Weapon | Multi-Cannons | Tod "The Blaster" McQuinn: 1-5 Zacariah Nemo (1-3) |
1 | 1 Sulphur | + Maximum Range Shot Speed + Damage Falloff Start |
+10% to +20% +10% to +19% +120% to +140% |
+ Mass + Power Draw |
+10% to 0% - |
Mostly positive | |||
2 | 1 Sulphur 1 Modified Consumer Firmware |
+20% to +40% +19% to +39% +140% to +180% |
+20% to +4% +4% to 0% |
Slightly positive | ||||||||
3 | 1 Sulphur 1 Modified Consumer Firmware 1 Focus Crystals |
+31% to +61% +29% to +59% +161% to +220% |
+29% to +10% +10% to +4% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Focus Crystals |
+40% to +81% +39% to +79% +180% to +259% |
+39% to +14% +14% to +10% |
Extremely positive | ||||||||
5 | 1 Thermic Alloys 1 Cracked Industrial Firmware 1 Biotech Conductors |
+50% to +100% +50% to +100% +200% to +300% |
+50% to +20% +20% to +14% |
Extremely positive | ||||||||
Overcharged Weapon | Multi-Cannons | Tod "The Blaster" McQuinn: 1-5 Zacariah Nemo (1-3) |
1 | 1 Nickel | + Damage Per Second + Damage |
+15% to +25% +14% to +25% |
+ Distributor Draw + Jitter + Thermal Load - Ammo Clip Size |
+89% to +45% +1 to +0.4 +44% to +29% -6% to -4% |
Mostly positive | |||
2 | 1 Nickel 1 Conductive Components |
+20% to +29% +20% to +29% |
+81% to +40% +0.8 to +0.3 +29% to +14% -11% to -6% |
Mostly positive | ||||||||
3 | 1 Nickel 1 Conductive Components 1 Electrochemical Arrays |
+25% to +35% +25% to +35% |
+70% to +35% +0.6 to +0.2 +14% to 0% -16% to -10% |
Slightly positive | ||||||||
4 | 1 Zinc 1 Conductive Ceramics 1 Polymer Capacitors |
+29% to +39% +29% to +39% |
+61% to +29% +0.4 to +0.1 - -21% to -12% |
Slightly positive | ||||||||
5 | 1 Zirconium 1 Conductive Polymers 1 Modified Embedded Firmware |
+35% to +45% +35% to +45% |
+50% to +25% - - -25% to -16% |
Extremely positive | ||||||||
Rapid Fire Modification | Multi-Cannons | Tod "The Blaster" McQuinn: 1-5 Zacariah Nemo (1-3) |
1 | 1 Mechanical Scrap | + Damage Per Second + Rate of Fire - Reload Time - Distributor Draw |
+9% to +18% +17% to +25% -11% to -25% - |
- Damage + Jitter |
-7% to -6% +2.5 to +1.25 |
Mostly positive | |||
2 | 1 Mechanical Scrap 1 Heat Dispersion Plate |
+14% to +23% +25% to +34% -20% to -36% -10% to -20% |
-10% to -7% +2 to +1 |
Mostly positive | ||||||||
3 | 1 Mechanical Equipment 1 Specialised Legacy Firmware 1 Precipitated Alloys |
+18% to +29% +34% to +42% -31% to -45% -15% to -25% |
-12% to -10% +1.5 to +0.75 |
Slightly positive | ||||||||
4 | 1 Mechanical Components 1 Modified Consumer Firmware 1 Thermic Alloys |
+25% to +37% +42% to +53% -40% to -55% -20% to -30% |
-13% to -12% +1 to +0.5 |
Mostly positive | ||||||||
5 | 1 Technetium 1 Configurable Components 1 Precipitated Alloys |
+31% to +44% +53% to +66% -50% to -65% -25% to -36% |
-15% to -13% +0.5 to +0.25 |
Mostly positive | ||||||||
Short Range Blaster | Multi-Cannons | Tod "The Blaster" McQuinn: 1-5 Zacariah Nemo (1-3) |
1 | 1 Nickel | + Damage Per Second + Damage |
+3% to +9% +3% to +9% |
- Maximum Range + Thermal Load - Integrity |
-35% to -10% - - |
Mostly positive | |||
2 | 1 Nickel 1 Modified Consumer Firmware |
+8% to +18% +8% to +18% |
-45% to -20% +20% to +10% - |
Slightly positive | ||||||||
3 | 1 Nickel 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+11% to +26% +11% to +26% |
-55% to -30% +29% to +20% -20% to -10% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+15% to +35% +15% to +35% |
-65% to -40% +39% to +29% -31% to -20% |
Extremely positive | ||||||||
5 | 1 Configurable Components 1 Cracked Industrial Firmware 1 Biotech Conductors |
+20% to +45% +20% to +45% |
-75% to -50% +50% to +39% -40% to -31% |
Extremely positive | ||||||||
Sturdy Mount | Multi-Cannons | Tod "The Blaster" McQuinn: 1-5 Zacariah Nemo (1-3) |
1 | 1 Nickel | + Integrity - Thermal Load + Armour Piercing |
+20% to +50% 0% to -11% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -6% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -11% to -20% 0% to +14% |
+150% to +100% | Mostly positive | ||||||||
4 | 1 Zinc 1 Molybdenum 1 Tungsten |
+81% to +200% -15% to -25% +10% to +29% |
+200% to +150% | Mostly positive | ||||||||
5 | 1 Technetium 1 Molybdenum 1 High Density Composites |
+100% to +250% -20% to -31% +20% to +45% |
+250% to +200% | Extremely positive | ||||||||
Double Shot | Fragment Cannons | Tod "The Blaster" McQuinn: 1-3 Zacariah Nemo: 1-5 |
1 | 1 Carbon | + Ammo Clip Size + Damage Per Second + Rate of Fire + Burst Size |
+34% +28% to +45% +28% to +45% +1 |
- Maximum Range | -25% to -10% | Mostly positive | |||
2 | 1 Carbon 1 Mechanical Equipment |
+34% +32% to +48% +32% to +48% +1 |
-20% to -8% | Slightly positive | ||||||||
3 | 1 Carbon 1 Mechanical Equipment 1 Cracked Industrial Firmware |
+34% to +100% +37% to +50% +37% to +50% +1 |
-15% to -6% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Mechanical Components 1 Security Firmware Patch |
+100% +40% to +52% +40% to +52% +1 |
-10% to -4% | Extremely positive | ||||||||
5 | 1 High Density Composites 1 Configurable Components 1 Modified Embedded Firmware |
+100% +43% to +55% +43% to +55% +1 |
-5% to -2% | Extremely positive | ||||||||
Efficient Weapon | Fragment Cannons | Tod "The Blaster" McQuinn: 1-3 Zacariah Nemo: 1-5 |
1 | 1 Sulphur | + Thermal Load + Damage Per Second + Damage - Power Draw - Distributor Draw |
-31% to -40% 0% to +4% 0% to +4% - - |
None | Mostly positive | ||||
2 | 1 Sulphur 1 Heat Dispersion Plate |
-35% to -45% +1% to +5% +1% to +5% 0% to -11% - |
Slightly positive | |||||||||
3 | 1 Chromium 1 Exceptional Scrambled Emission 1 Heat Exchangers |
-40% to -50% +1% to +7% +1% to +7% -6% to -20% -16% to -25% |
Mostly positive | |||||||||
4 | 1 Selenium 1 Irregular Emission Data 1 Heat Vanes |
-45% to -55% +3% to +8% +2% to +8% -11% to -30% -21% to -31% |
Mostly positive | |||||||||
5 | 1 Cadmium 1 Unexpected Emission Data 1 Proto Heat Radiators |
-50% to -61% +3% to +9% +3% to +9% -15% to -40% -25% to -36% |
Extremely positive | |||||||||
High Capacity Magazine | Fragment Cannons | Tod "The Blaster" McQuinn: 1-3 Zacariah Nemo: 1-5 |
1 | 1 Mechanical Scrap | + Ammo Clip Size + Ammo Maximum |
+34% to +66% +10% to +61% |
+ Mass + Reload Time + Power Draw |
+25% to +10% +20% to 0% +20% to +10% |
Mostly positive | |||
2 | 1 Vanadium 1 Mechanical Scrap |
+34% to +100% +20% to +70% |
+50% to +20% +39% to +10% +25% to +14% |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Niobium 1 Mechanical Scrap |
+34% to +100% +29% to +81% |
+75% to +29% +61% to +20% +31% to +20% |
Slightly positive | ||||||||
4 | 1 Tin 1 Mechanical Equipment 1 High Density Composites |
+66% to +100% +39% to +90% |
+100% to +39% +81% to +31% +35% to +25% |
Extremely positive | ||||||||
5 | 1 Military Supercapacitors 1 Mechanical Components 1 Proprietary Composites |
+66% to +100% +50% to +100% |
+125% to +50% +100% to +39% +40% to +31% |
Extremely positive | ||||||||
Light Weight Mount | Fragment Cannons | Tod "The Blaster" McQuinn: 1-3 Zacariah Nemo: 1-5 |
1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -2% to -5% -3% to -5% |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -5% to -8% -5% to -9% |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -12% -7% to -12% |
-40% to -20% | Mostly positive | ||||||||
4 | 1 Proto Light Alloys 1 Phase Alloys 1 Conductive Components |
-40% to -75% -8% to -16% -9% to -16% |
-50% to -31% | Mostly positive | ||||||||
5 | 1 Proto Light Alloys 1 Proto Radiolic Alloys 1 Conductive Ceramics |
-50% to -90% -11% to -20% -11% to -21% |
-61% to -40% | Extremely positive | ||||||||
Overcharged Weapon | Fragment Cannons | Tod "The Blaster" McQuinn: 1-3 Zacariah Nemo: 1-5 |
1 | 1 Nickel | + Damage Per Second + Damage |
+14% to +25% +14% to +25% |
+ Distributor Draw + Jitter + Thermal Load |
+89% to +45% +1 to +0.4 +45% to +31% |
Mostly positive | |||
2 | 1 Nickel 1 Conductive Components |
+20% to +29% +19% to +29% |
+79% to +39% +0.8 to +0.3 +31% to +14% |
Mostly positive | ||||||||
3 | 1 Nickel 1 Conductive Components 1 Electrochemical Arrays |
+25% to +35% +25% to +34% |
+69% to +34% +0.6 to +0.2 +14% to 0% |
Slightly positive | ||||||||
4 | 1 Zinc 1 Conductive Ceramics 1 Polymer Capacitors |
+29% to +39% +29% to +39% |
+59% to +29% +0.4 to +0.1 - |
Slightly positive | ||||||||
5 | 1 Zirconium 1 Conductive Polymers 1 Modified Embedded Firmware |
+35% to +45% +35% to +45% |
+50% to +25% - - |
Extremely positive | ||||||||
Rapid Fire Modification | Fragment Cannons | Tod "The Blaster" McQuinn: 1-3 Zacariah Nemo: 1-5 |
1 | 1 Mechanical Scrap | + Damage Per Second + Rate of Fire - Reload Time - Distributor Draw |
+9% to +18% +17% to +25% -10% to -25% - |
- Damage + Jitter |
-8% to -6% +2.5 to +1.25 |
Mostly positive | |||
2 | 1 Mechanical Scrap 1 Heat Dispersion Plate |
+14% to +23% +25% to +34% -20% to -35% -11% to -21% |
-10% to -8% +2 to +1 |
Mostly positive | ||||||||
3 | 1 Mechanical Equipment 1 Specialised Legacy Firmware 1 Precipitated Alloys |
+18% to +29% +34% to +42% -31% to -45% -16% to -25% |
-12% to -10% +1.5 to +0.75 |
Slightly positive | ||||||||
4 | 1 Mechanical Components 1 Modified Consumer Firmware 1 Thermic Alloys |
+25% to +37% +42% to +53% -40% to -55% -21% to -31% |
-13% to -12% +1 to +0.5 |
Mostly positive | ||||||||
5 | 1 Technetium 1 Configurable Components 1 Precipitated Alloys |
+31% to +44% +53% to +66% -50% to -65% -25% to -36% |
-15% to -13% +0.5 to +0.25 |
Mostly positive | ||||||||
Sturdy Mount | Fragment Cannons | Tod "The Blaster" McQuinn: 1-3 Zacariah Nemo: 1-5 |
1 | 1 Nickel | + Integrity - Thermal Load + Armour Piercing |
+20% to +50% 0% to -11% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -6% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -11% to -20% 0% to +14% |
+150% to +100% | Mostly positive | ||||||||
4 | 1 Zinc 1 Molybdenum 1 Tungsten |
+81% to +200% -15% to -25% +10% to +31% |
+200% to +150% | Mostly positive | ||||||||
5 | 1 Technetium 1 Molybdenum 1 High Density Composites |
+100% to +250% -20% to -31% +20% to +45% |
+250% to +200% | Extremely positive | ||||||||
High Capacity Magazine | Rail Guns | Tod "The Blaster" McQuinn: 1-5 The Sarge: 1-3 |
1 | 1 Mechanical Scrap | + Ammo Clip Size + Ammo Maximum |
+100% +10% to +61% |
+ Mass + Reload Time + Power Draw |
+25% to +10% +20% to 0% +20% to +10% |
Mostly positive | |||
2 | 1 Vanadium 1 Mechanical Scrap |
+100% +20% to +70% |
+50% to +20% +39% to +10% +25% to +14% |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Niobium 1 Mechanical Scrap |
+100% +31% to +81% |
+75% to +29% +61% to +20% +29% to +20% |
Slightly positive | ||||||||
4 | 1 Tin 1 Mechanical Equipment 1 High Density Composites |
+100% +39% to +89% |
+100% to +39% +79% to +29% +35% to +25% |
Extremely positive | ||||||||
5 | 1 Military Supercapacitors 1 Mechanical Components 1 Proprietary Composites |
+100%% +50% to +100% |
+125% to +50% +100% to +39% +39% to +29% |
Extremely positive | ||||||||
Light Weight Mount | Rail Guns | Tod "The Blaster" McQuinn: 1-5 The Sarge: 1-3 |
1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -2% to -4% -2% to -5% |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -4% to -8% -5% to -8% |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -12% -7% to -12% |
-40% to -20% | Mostly positive | ||||||||
4 | 1 Conductive Components 1 Phase Alloys 1 Proto Light Alloys |
-40% to -75% -8% to -16% -8% to -16% |
-50% to -31% | Mostly positive | ||||||||
5 | 1 Conductive Ceramics 1 Proto Radiolic Alloys 1 Proto Light Alloys |
-50% to -90% -11% to -20% -11% to -20% |
-61% to -40% | Extremely positive | ||||||||
Long Range Weapon | Rail Guns | Tod "The Blaster" McQuinn: 1-5 The Sarge: 1-3 |
1 | 1 Sulphur | + Maximum Range + Damage Falloff Start |
+10% to +20% +230% to +260% |
+ Mass + Power Draw |
+10% to 0% - |
Mostly positive | |||
2 | 1 Sulphur 1 Modified Consumer Firmware |
+20% to +39% +260% to +321% |
+20% to +4% +4% to 0% |
Slightly positive | ||||||||
3 | 1 Sulphur 1 Modified Consumer Firmware 1 Focus Crystals |
+29% to +61% +289% to +380% |
+29% to +10% +10% to +4% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Focus Crystals |
+39% to +79% +321% to +440% |
+39% to +14% +14% to +10% |
Extremely positive | ||||||||
5 | 1 Thermic Alloys 1 Cracked Industrial Firmware 1 Biotech Conductors |
+50% to +100% +350% to +500% |
+50% to +20% +20% to +14% |
Extremely positive | ||||||||
Short Range Blaster | Rail Guns | Tod "The Blaster" McQuinn: 1-5 The Sarge: 1-3 |
1 | 1 Nickel | + Damage Per Second + Damage |
+3% to +9% +3% to +9% |
- Maximum Range + Thermal Load - Integrity |
-36% to -11% - - |
Mostly positive | |||
2 | 1 Nickel 1 Modified Consumer Firmware |
+8% to +18% +8% to +18% |
-45% to -20% +20% to +10% - |
Slightly positive | ||||||||
3 | 1 Nickel 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+11% to +26% +11% to +26% |
-55% to -31% +29% to +20% -20% to -10% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+17% to +37% +17% to +37% |
-65% to -40% +39% to +29% -31% to -20% |
Extremely positive | ||||||||
5 | 1 Configurable Components 1 Cracked Industrial Firmware 1 Biotech Conductors |
+20% to +45% +20% to +45% |
-75% to -50% +50% to +39% -40% to -31% |
Extremely positive | ||||||||
Sturdy Mount | Rail Guns | Tod "The Blaster" McQuinn: 1-5 The Sarge: 1-3 |
1 | 1 Nickel | + Integrity - Thermal Load + Armour Piercing |
+20% to +50% 0% to -11% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -6% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -11% to -20% 0% to +14% |
+150% to +100% | Mostly positive | ||||||||
4 | 1 Zinc 1 Molybdenum 1 Tungsten |
+81% to +200% -15% to -25% +10% to +29% |
+200% to +150% | Mostly positive | ||||||||
5 | 1 Technetium 1 Molybdenum 1 High Density Composites |
+100% to +250% -20% to -31% +20% to +44% |
+250% to +200% | Extremely positive | ||||||||
Efficient Weapon | Plasma Accelerators | Zacariah Nemo: 1-2 Bill Turner: 1-5 |
1 | 1 Sulphur | + Thermal Load + Damage Per Second + Damage - Power Draw - Distributor Draw |
-31% to -40% 0% to +4% 0% to +5% - - |
None | Mostly positive | ||||
2 | 1 Sulphur 1 Heat Dispersion Plate |
-36% to -45% +1% to +5% +1% to +5% 0% to -11% - |
Slightly positive | |||||||||
3 | 1 Chromium 1 Heat Exchangers 1 Exceptional Scrambled Emission |
-40% to -50% +1% to +7% +1% to +7% -6% to -21% -15% to -25% |
Mostly positive | |||||||||
4 | 1 Selenium 1 Heat Vanes 1 Irregular Emission Data |
-45% to -55% +2% to +8% +2% to +8% -11 to -31% -20% to -31% |
Mostly positive | |||||||||
5 | 1 Cadmium 1 Proto Heat Radiators 1 Unexpected Emission Data |
-50% to -61% +4% to +8% +4% to +9% -15% to -41% -25% to -36% |
Extremely positive | |||||||||
Focused Weapon | Plasma Accelerators | Zacariah Nemo: 1-2 Bill Turner: 1-5 |
1 | 1 Iron | + Maximum Range +Shot Speed + Damage Falloff Start + Armour Piercing |
+10% to +19% +10% to +19% +10% to +20% - |
- Damage Per Second - Rate of Fire + Thermal Load |
-17% to -8% -17% to -8% +50% to +39% |
Mostly positive | |||
2 | 1 Iron 1 Conductive Components |
+19% to +39% +19% to +39% +20% to +40% 0% to +10% |
-14% to -6% -14% to -6% +39% to +29% |
Slightly positive | ||||||||
3 | 1 Iron 1 Chromium 1 Conductive Ceramics |
+29% to +61% +29% to +61% +31% to +61% +10% to +20% |
-11% to -4% -11% to -4% +29% to +20% |
Mostly positive | ||||||||
4 | 1 Germanium 1 Focus Crystals 1 Polymer Capacitors |
+39% to +79% +39% to +79% +40% to +81% +20% to +39% |
-8% to -2% -8% to -2% +20% to +10% |
Extremely positive | ||||||||
5 | 1 Niobium 1 Refined Focus Crystals 1 Military Supercapacitors |
+50% to +100% +50% to +100% +50% to +100% +29% to +59% |
-4% to 0% -4% to 0% +10% to 0% |
Extremely positive | ||||||||
Light Weight Mount | Plasma Accelerators | Zacariah Nemo: 1-2 Bill Turner: 1-5 |
1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -3% to -5% -2% to -4% |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -5% to -9% -4% to -8% |
-31% to -11% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -7% to -12% -6% to -12% |
-40% to -20% | Mostly positive | ||||||||
4 | 1 Conductive Components 1 Phase Alloys 1 Proto Light Alloys |
-40% to -75% -9% to -16% -8% to -16% |
-50% to -30% | Mostly positive | ||||||||
5 | 1 Conductive Ceramics 1 Proto Radiolic Alloys 1 Proto Light Alloys |
-50% to -90% -11% to -21% -11% to -20% |
-61% to -40% | Extremely positive | ||||||||
Long Range Weapon | Plasma Accelerators | Zacariah Nemo: 1-2 Bill Turner: 1-5 |
1 | 1 Sulphur | + Maximum Range + Shot Speed + Damage Falloff Start |
+10% to +19% +10% to +19% +93% to +111% |
+ Mass + Power Draw |
+10% to 0% - |
Mostly positive | |||
2 | 1 Sulphur 1 Modified Consumer Firmware |
+19% to +39% +19% to +39% +111% to +144% |
+20% to +4% +4% to 0% |
Slightly positive | ||||||||
3 | 1 Sulphur 1 Modified Consumer Firmware 1 Focus Crystals |
+29% to +61% +29% to +61% +127% to +180% |
+29% to +10% +10% to +4% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Focus Crystals |
+39% to +79% +39% to +79% +144% to +215% |
+39% to +14% +14% to +10% |
Extremely positive | ||||||||
5 | 1 Thermic Alloys 1 Cracked Industrial Firmware 1 Biotech Conductors |
+50% to +100% +50% to +100% +162% to +250% |
+50% to +20% +19% to +14% |
Extremely positive | ||||||||
Overcharged Weapon | Plasma Accelerators | Zacariah Nemo: 1-2 Bill Turner: 1-5 |
1 | 1 Nickel | + Damage Per Second + Damage |
+14% to +25% +15% to +25% |
+ Distributor Draw + Jitter + Thermal Load |
+89% to +45% +1 to +0.4 +45% to +29% |
Mostly positive | |||
2 | 1 Nickel 1 Conductive Components |
+20% to +29% +20% to +29% |
+79% to +39% +0.8 to +0.3 +29% to +14% |
Mostly positive | ||||||||
3 | 1 Nickel 1 Conductive Components 1 Electrochemical Arrays |
+25% to +35% +25% to +35% |
+70% to +35% +0.6 to +0.2 +14% to 0% |
Slightly positive | ||||||||
4 | 1 Zinc 1 Conductive Ceramics 1 Polymer Capacitors |
+29% to +39% +29% to +39% |
+61% to +29% +0.4 to +0.1 -20% to 0% |
Slightly positive | ||||||||
5 | 1 Zirconium 1 Conductive Polymers 1 Modified Embedded Firmware |
+35% to +45% +35% to +45% |
+50% to +25% - -20% to 0% |
Extremely positive | ||||||||
Rapid Fire Modification | Plasma Accelerators | Zacariah Nemo: 1-2 Bill Turner: 1-5 |
1 | 1 Mechanical Scrap | + Damage Per Second + Rate of Fire - Reload Time - Distributor Draw |
+9% to +18% +17% to +25% -11% to -25% - |
- Damage + Jitter |
-7% to -5% +2.5 to +1.25 |
Mostly positive | |||
2 | 1 Mechanical Scrap 1 Heat Dispersion Plate |
+14% to +23% +25% to +34% -20% to -36% -11% to -20% |
-9% to -7% +2 to +1 |
Mostly positive | ||||||||
3 | 1 Mechanical Equipment 1 Specialised Legacy Firmware 1 Precipitated Alloys |
+18% to +29% +34% to +42% -31% to -45% -15% to -25% |
-12% to -9% +1.5 to +0.75 |
Slightly positive | ||||||||
4 | 1 Mechanical Components 1 Modified Consumer Firmware 1 Thermic Alloys |
+25% to +37% +42% to +53% -40% to -55% -20% to -31% |
-13% to -12% +1 to +0.5 |
Mostly positive | ||||||||
5 | 1 Technetium 1 Configurable Components 1 Precipitated Alloys |
+31% to +44% +53% to +66% -50% to -65% -25% to -36% |
-15% to -13% +0.5 to +0.25 |
Mostly positive | ||||||||
Short Range Blaster | Plasma Accelerators | Zacariah Nemo: 1-2 Bill Turner: 1-5 |
1 | 1 Nickel | + Damage Per Second + Damage |
+4% to +8% +4% to +9% |
- Maximum Range + Thermal Load - Integrity |
-36% to -11% - - |
Mostly positive | |||
2 | 1 Nickel 1 Modified Consumer Firmware |
+8% to +18% +8% to +18% |
-45% to -20% +20% to +10% - |
Slightly positive | ||||||||
3 | 1 Nickel 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+11% to +26% +11% to +26% |
-55% to -31% +29% to +20% -20% to -11% |
Slightly positive | ||||||||
4 | 1 Conductive Polymers 1 Modified Consumer Firmware 1 Electrochemical Arrays |
+15% to +35% +15% to +35% |
-65% to -41% +39% to +29% -30% to -20% |
Extremely positive | ||||||||
5 | 1 Configurable Components 1 Cracked Industrial Firmware 1 Biotech Conductors |
+20% to +45% +20% to +45% |
-75% to -50% +50% to +39% -40% to -30% |
Extremely positive | ||||||||
Sturdy Mount | Plasma Accelerators | Zacariah Nemo: 1-2 Bill Turner: 1-5 |
1 | 1 Nickel | + Integrity - Thermal Load + Armour Piercing |
+20% to +50% 0% to -11% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+40% to +100% -6% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -11% to -21% 0% to +14% |
+100% to +50% | Mostly positive | ||||||||
4 | 1 Zinc 1 Molybdenum 1 Tungsten |
+79% to +200% -15% to -26% +10% to +29% |
+200% to +150% | Mostly positive | ||||||||
5 | 1 Technetium 1 Molybdenum 1 High Density Composites |
+100% to +250% -21% to -31% +20% to +44% |
+250% to +200% | Extremely positive | ||||||||
Lightweight Hull Reinforcements | Hull Reinforcements | Selene Jean: 1-5 | 1 | 1 Iron | + Hull Boost - Mass |
+2 to +6 0% to -3% |
- Hull Reinforcement | -6% to 0% | Mostly positive | |||
2 | 1 Iron 1 Conductive Components |
+4 to +9 0% to -6% |
-10% to -6% | Slightly positive | ||||||||
3 | 1 Iron 1 Conductive Components High Density Composites |
+6 to +12 0% to -10% |
-15% to -10% | Slightly positive | ||||||||
4 | 1 Germanium 1 Conductive Ceramics 1 Proprietary Composites |
+8 to +15 0% to -12% |
-20% to -15% | Mostly positive | ||||||||
5 | 1 Tin 1 Conductive Ceramics 1 Military Grade Alloys |
+10 to +18 0% to -15% |
-25% to -20% | Extremely positive | ||||||||
Blast Resistant Hull Reinforcement | Hull Reinforcements | Selene Jean: 1-5 | 1 | 1 Nickel | + Explosive Resistance | +4.98 to +7.96 | - Kinetic Resistance - Thermal Resistance |
-2.99 to -1.99 -2.99 to -1.99 |
Mostly positive | |||
2 | 1 Carbon 1 Zinc |
+9.95 to +15.92 | -5.97 to -3.98 -5.97 to -3.98 |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Zirconium 1 Salvaged Alloys |
+14.92 to +23.88 | -8.96 to -5.97 -8.96 to -5.97 |
Slightly positive | ||||||||
4 | 1 Tungsten 1 Mercury 1 Galvanising Alloys |
+19.9 to +31.84 | -11.94 to -7.96 -11.94 to -7.96 |
Mostly positive | ||||||||
5 | 1 Molybdenum 1 Ruthenium 1 Phase Alloys |
+24.87 to +39.8 | -14.93 to -9.95 -14.93 to -9.95 |
Extremely positive | ||||||||
Heavy Duty Hull Reinforcement | Hull Reinforcements | Selene Jean: 1-5 | 1 | 1 Carbon | + Hull Reinforcement + Kinetic Resistance + Thermal Resistance + Explosive Resistance |
+5% to +20% 0 to +2.98 0 to +2.98 0 to +2.98 |
+ Mass | +8% to 0% | Mostly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+10% to +31% +0.99 to +5.97 +0.99 to +5.97 +0.99 to +5.97 |
+15% to +4% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+14% to +39% +1.99 to +8.96 +1.99 to +8.96 +1.99 to +8.96 |
+23% to +10% | Slightly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+20% to +50% +2.98 to +11.94 +2.98 to +11.94 +2.98 to +11.94 |
+31% to +14% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+25% to +61% +3.98 to +14.92 +3.98 to +14.92 +3.98 to +14.92 |
+39% to +20% | Extremely positive | ||||||||
Kinetic Resistant Hull Reinforcement | Hull Reinforcements | Selene Jean: 1-5 | 1 | 1 Nickel | + Kinetic Resistance | +4.98 to +7.96 | - Thermal Resistance - Explosive Resistance |
-2.99 to -1.99 -2.99 to -1.99 |
Mostly positive | |||
2 | 1 Nickel 1 Vanadium |
+9.95 to +15.92 | -5.97 to -3.98 -5.97 to -3.98 |
Slightly positive | ||||||||
3 | 1 Vanadium 1 High Density Components 1 Salvaged Alloys |
+14.92 to +23.88 | -8.96 to -5.97 -8.96 to -5.97 |
Slightly positive | ||||||||
4 | 1 Tungsten 1 Proprietary Composites 1 Galvanising Alloys |
+19.9 to +31.84 | -11.94 to -7.96 -11.94 to -7.96 |
Mostly positive | ||||||||
5 | 1 Molybdenum 1 Core Dynamics Composites 1 Phase Alloys |
+24.87 to +39.8 | -14.93 to -9.95 -14.93 to -9.95 |
Extremely positive | ||||||||
Thermal Resistant Hull Reinforcement | Hull Reinforcements | Selene Jean: 1-5 | 1 | 1 Heat Conduction Wiring | + Thermal Resistance | +4.98 to +7.96 | - Explosive Resistance - Kinetic Resistance |
-2.99 to -1.99 -2.99 to -1.99 |
Mostly positive | |||
2 | 1 Nickel 1 Heat Dispersion Plate |
+9.95 to +15.92 | -5.97 to -3.98 -5.97 to -3.98 |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Heat Exchangers 1 Salvaged Alloys |
+14.92 to +23.88 | -8.96 to -5.97 -8.96 to -5.97 |
Slightly positive | ||||||||
4 | 1 Tungsten 1 Heat Vanes 1 Galvanising Alloys |
+19.9 to +31.84 | -11.94 to -7.96 -11.94 to -7.96 |
Mostly positive | ||||||||
5 | 1 Molybdenum 1 Proto Heat Radiators 1 Phase Alloys |
+24.87 to +39.8 | -14.93 to -9.95 -14.93 to -9.95 |
Extremely positive | ||||||||
Lightweight Armour | Armour | Selene Jean: 1-5 | 1 | 1 Iron | - Mass + Kinetic Resistance + Thermal Resistance + Explosive Resistance |
0 0 to +2.4 0 to +2 0 to +2.8 |
- Hull Boost | -1 to 0 | Mostly positive | |||
2 | 1 Iron 1 Conductive Components |
0 +1.2 to +4.8 +1 to +4 +1.4 to +5.6 |
-2 to -1 | Slightly positive | ||||||||
3 | 1 Iron 1 Conductive Components High Density Composites |
0 +2.4 to +7.2 +2 to +6 +2.8 to +8.4 |
-3 to -2 | Slightly positive | ||||||||
4 | 1 Germanium 1 Conductive Ceramics 1 Proprietary Composites |
0 +3.6 to +9.6 +3 to +8 +4.2 to +11.2 |
-4 to -3 | Mostly positive | ||||||||
5 | 1 Tin 1 Conductive Ceramics 1 Military Grade Alloys |
0 +4.8 to +12 +4 to +10 +5.6 to +14 |
-5 to -4 | Extremely positive | ||||||||
Blast Resistant Armour | Armour | Selene Jean: 1-5 | 1 | 1 Nickel | + Explosive Resistance | +7 to +11.2 | - Kinetic Resistance - Thermal Resistance |
-4.8 to -2.4 -4 to -2 |
Mostly positive | |||
2 | 1 Carbon 1 Zinc |
+14 to +22.4 | -9.6 to -4.8 -8 to -4 |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Zirconium 1 Salvaged Alloys |
+21 to +33.6 | -14.4 to -7.2 -12 to -6 |
Slightly positive | ||||||||
4 | 1 Tungsten 1 Mercury 1 Galvanising Alloys |
+28 to +44.8 | -19.2 to -9.6 -16 to -8 |
Mostly positive | ||||||||
5 | 1 Molybdenum 1 Ruthenium 1 Phase Alloys |
+35 to +56 | -24 to -12 -20 to -10 |
Extremely positive | ||||||||
Heavy Duty Armour | Armour | Selene Jean: 1-5 | 1 | 1 Carbon | - Mass + Hull Boost + Kinetic Resistance + Thermal Resistance + Explosive Resistance |
0 +4 to +10 0 to +1.2 0 to +1 0 to +1.4 |
None | Mostly positive | ||||
2 | 1 Carbon 1 Shield Emitters |
0 +8 to +15 +1.2 to +2.4 +1 to +2 +1.4 to +2.8 |
Slightly positive | |||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
0 +12 to +20 +2.4 to +3.6 +2 to +3 +2.8 to +4.2 |
Slightly positive | |||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
0 +16 to +25 +3.6 to +4.8 +3 to +4 +4.2 to +5.6 |
Mostly positive | |||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
0 +20 to +30 +4.8 to +6 +4 to +5 +5.6 to +7 |
Extremely positive | |||||||||
Kinetic Resistant Armour | Armour | Selene Jean: 1-5 | 1 | 1 Nickel | + Kinetic Resistance | +6 to +9.6 | - Thermal Resistance - Explosive Resistance |
-4 to -2 -5.6 to -2.8 |
Mostly positive | |||
2 | 1 Nickel 1 Vanadium |
+12 to +19.2 | -8 to -4 -11.2 to -5.6 |
Slightly positive | ||||||||
3 | 1 Vanadium 1 High Density Components 1 Salvaged Alloys |
+18 to +28.8 | -12 to -6 -16.8 to -8.4 |
Slightly positive | ||||||||
4 | 1 Tungsten 1 Proprietary Composites 1 Galvanising Alloys |
+24 to +38.4 | -16 to -8 -22.4 to -11.2 |
Mostly positive | ||||||||
5 | 1 Molybdenum 1 Core Dynamics Composites 1 Phase Alloys |
+30 to +48 | -20 to -10 -28 to -14 |
Extremely positive | ||||||||
Thermal Resistant Armour | Armour | Selene Jean: 1-5 | 1 | 1 Heat Conduction Wiring | + Thermal Resistance | +5 to +8 | - Explosive Resistance - Kinetic Resistance |
-5.6 to -2.8 -4.8 to -2.4 |
Mostly positive | |||
2 | 1 Nickel 1 Heat Dispersion Plate |
+10 to +16 | -11.2 to -5.6 -9.6 to -4.8 |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Heat Exchangers 1 Salvaged Alloys |
+15 to +24 | -16.8 to -8.4 -14.4 to -7.2 |
Slightly positive | ||||||||
4 | 1 Tungsten 1 Heat Vanes 1 Galvanising Alloys |
+20 to +32 | -22.4 to -11.2 -19.2 to -9.6 |
Mostly positive | ||||||||
5 | 1 Molybdenum 1 Proto Heat Radiators 1 Phase Alloys |
+25 to +40 | -28 to -14 -24 to -12 |
Extremely positive | ||||||||
Armoured Power Plant | Power Plant | Marco Qwent: 1-4 Hera Tani: 1-5 |
1 | 1 Worn Shield Emitters | + Integrity + Heat Efficiency |
+20% to +40% +4% to -6% |
+ Mass | +8% to 0% | Mostly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+29% to +61% +5% to -6% |
+15% to +3% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+40% to +79% +7% to -7% |
+23% to +8% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+50% to +100% +8% to -8% |
+31% to +11% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+61% to +120% +9% to -10% |
+39% to +15% | Extremely positive | ||||||||
Overcharged Power Plant | Power Plant | Marco Qwent: 1-4 Hera Tani: 1-5 |
1 | 1 Sulphur | + Power Capacity | +1% to +11% | - Integrity - Heat Efficiency |
-11% to 0% +10% to 0% |
Mostly positive | |||
2 | 1 Heat Conduction Wiring 1 Conductive Components |
+3% to +18% | -20% to -5% +20% to +4% |
Slightly positive | ||||||||
3 | 1 Selenium 1 Heat Conduction Wiring 1 Conductive Components |
+5% to +23% | -30% to -11% +29% to +10% |
Slightly positive | ||||||||
4 | 1 Cadmium 1 Heat Dispersion Plate 1 Conductive Ceramics |
+8% to +29% | -40% to -15% +39% to +14% |
Mostly positive | ||||||||
5 | 1 Tellurium 1 Chemical Manipulators 1 Conductive Ceramics |
+10% to +35% | -50% to -20% +50% to +20% |
Extremely positive | ||||||||
Low Emissions Power Plant | Power Plant | Marco Qwent: 1-3 Hera Tani: 1-3 |
1 | 1 Iron | - Heat Efficiency | -6% to -20% | - Power Capacity + Mass |
-6% to 0% +4% to 0% |
Mostly positive | |||
2 | 1 Iron 1 Irregular Emission Data |
-11% to -31% | -12% to -3% +10% to +4% |
Slightly positive | ||||||||
3 | 1 Iron 1 Irregular Emission Data 1 Heat Exchangers |
-15% to -40% | -18% to -6% +14% to +10% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Misc Leightweight | Manifest Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Manifest Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Manifest Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Long Range Scanner | Manifest Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Iron | + Scanner Range | +10% to +20% | - Max Angle + Power Draw |
-20% to -10% +20% to +10% |
Slightly positive | |||
2 | 1 Iron 1 Hybrid Capacitors |
+20% to +39% | -30% to -15% +39% to +20% |
Slightly positive | ||||||||
3 | 1 Iron 1 Hybrid Capacitors 1 Unexpected Emission Data |
+29% to +61% | -40% to -20% +61% to +29% |
Mostly positive | ||||||||
4 | 1 Germanium 1 Electrochemical Arrays 1 Decoded Emission Data |
+39% to +79% | -50% to -25% +79% to +39% |
Mostly positive | ||||||||
5 | 1 Niobium 1 Polymer Capacitors 1 Abnormal Compact Emissions Data |
+50% to +100% | -61% to -30% +100% to +50% |
Extremely positive | ||||||||
Wide Angle Scanner | Manifest Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Mechanical Scrap | + Max Angle | +20% to +40% | + Scan Time + Mass |
+20% to +10% +39% to +20% |
Slightly positive | |||
2 | 1 Germanium 1 Mechanical Scrap |
+40% to +81% | +39% to +20% +79% to +39% |
Slightly positive | ||||||||
3 | 1 Germanium 1 Mechanical Scrap 1 Classified Scan Databanks |
+61% to +120% | +61% to +31% +120% to +61% |
Mostly positive | ||||||||
4 | 1 Niobium 1 Mechanical Equipment 1 Divergent Scan Data |
+81% to +161% | +81% to +39% +159% to +79% |
Mostly positive | ||||||||
5 | 1 Tin 1 Mechanical Components 1 Classified Scan Fragment |
+100% to +200% | +100% to +50% +200% to +100% |
Extremely positive | ||||||||
Fast Scanner | Manifest Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Phosphorus | - Scan Time | -10% to -40% | - Scanner Range - Integrity |
-11% to -6% -40% to -10% |
Slightly positive | |||
2 | 1 Phosphorus 1 Flawed Focus Crystals |
-20% to -50% | -20% to -11% -50% to -20% |
Slightly positive | ||||||||
3 | 1 Phosphorus 1 Flawed Focus Crystals 1 Open Symmetric Keys |
-31% to -61% | -31% to -16% -61% to -31% |
Mostly positive | ||||||||
4 | 1 Manganese 1 Focus Crystals 1 Atypical Encryption Archives |
-40% to -70% | -40% to -20% -70% to -40% |
Mostly positive | ||||||||
5 | 1 Arsenic 1 Refined Focus Crystals 1 Adaptive Encryptors Capture |
-50% to -80% | -50% to -25% -80% to -50% |
Extremely positive | ||||||||
Misc Leightweight | Kill Warrant Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Kill Warrant Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Kill Warrant Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Long Range Scanner | Kill Warrant Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Iron | + Scanner Range | +10% to +20% | - Max Angle + Power Draw |
-20% to -10% +20% to +10% |
Slightly positive | |||
2 | 1 Iron 1 Hybrid Capacitors |
+20% to +39% | -30% to -15% +39% to +20% |
Slightly positive | ||||||||
3 | 1 Iron 1 Hybrid Capacitors 1 Unexpected Emission Data |
+29% to +61% | -40% to -20% +61% to +29% |
Mostly positive | ||||||||
4 | 1 Germanium 1 Electrochemical Arrays 1 Decoded Emission Data |
+39% to +79% | -50% to -25% +79% to +39% |
Mostly positive | ||||||||
5 | 1 Niobium 1 Polymer Capacitors 1 Abnormal Compact Emissions Data |
+50% to +100% | -61% to -30% +100% to +50% |
Extremely positive | ||||||||
Wide Angle Scanner | Kill Warrant Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Mechanical Scrap | + Max Angle | +20% to +40% | + Scan Time + Mass |
+20% to +10% +39% to +20% |
Slightly positive | |||
2 | 1 Germanium 1 Mechanical Scrap |
+40% to +81% | +39% to +20% +79% to +39% |
Slightly positive | ||||||||
3 | 1 Germanium 1 Mechanical Scrap 1 Classified Scan Databanks |
+61% to +120% | +61% to +31% +120% to +61% |
Mostly positive | ||||||||
4 | 1 Niobium 1 Mechanical Equipment 1 Divergent Scan Data |
+81% to +161% | +81% to +39% +159% to +79% |
Mostly positive | ||||||||
5 | 1 Tin 1 Mechanical Components 1 Classified Scan Fragment |
+100% to +200% | +100% to +50% +200% to +100% |
Extremely positive | ||||||||
Fast Scanner | Kill Warrant Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Phosphorus | - Scan Time | -10% to -40% | - Scanner Range - Integrity |
-11% to -6% -40% to -10% |
Slightly positive | |||
2 | 1 Phosphorus 1 Flawed Focus Crystals |
-20% to -50% | -20% to -11% -50% to -20% |
Slightly positive | ||||||||
3 | 1 Phosphorus 1 Flawed Focus Crystals 1 Open Symmetric Keys |
-31% to -61% | -31% to -16% -61% to -31% |
Mostly positive | ||||||||
4 | 1 Manganese 1 Focus Crystals 1 Atypical Encryption Archives |
-40% to -70% | -40% to -20% -70% to -40% |
Mostly positive | ||||||||
5 | 1 Arsenic 1 Refined Focus Crystals 1 Adaptive Encryptors Capture |
-50% to -80% | -50% to -25% -80% to -50% |
Extremely positive | ||||||||
Misc Leightweight | Wake Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Wake Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Wake Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Long Range Scanner | Wake Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Iron | + Scanner Range | +10% to +20% | - Max Angle + Power Draw |
-20% to -10% +20% to +10% |
Slightly positive | |||
2 | 1 Iron 1 Hybrid Capacitors |
+20% to +39% | -30% to -15% +39% to +20% |
Slightly positive | ||||||||
3 | 1 Iron 1 Hybrid Capacitors 1 Unexpected Emission Data |
+29% to +61% | -40% to -20% +61% to +29% |
Mostly positive | ||||||||
4 | 1 Germanium 1 Electrochemical Arrays 1 Decoded Emission Data |
+39% to +79% | -50% to -25% +79% to +39% |
Mostly positive | ||||||||
5 | 1 Niobium 1 Polymer Capacitors 1 Abnormal Compact Emissions Data |
+50% to +100% | -61% to -30% +100% to +50% |
Extremely positive | ||||||||
Wide Angle Scanner | Wake Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Mechanical Scrap | + Max Angle | +20% to +40% | + Scan Time + Mass |
+20% to +10% +39% to +20% |
Slightly positive | |||
2 | 1 Germanium 1 Mechanical Scrap |
+40% to +81% | +39% to +20% +79% to +39% |
Slightly positive | ||||||||
3 | 1 Germanium 1 Mechanical Scrap 1 Classified Scan Databanks |
+61% to +120% | +61% to +31% +120% to +61% |
Mostly positive | ||||||||
4 | 1 Niobium 1 Mechanical Equipment 1 Divergent Scan Data |
+81% to +161% | +81% to +39% +159% to +79% |
Mostly positive | ||||||||
5 | 1 Tin 1 Mechanical Components 1 Classified Scan Fragment |
+100% to +200% | +100% to +50% +200% to +100% |
Extremely positive | ||||||||
Fast Scanner | Wake Scanners | Juri Ishmaak: 1-3 Tiana Fortune: 1-5 Bill Turner: 1-3 |
1 | 1 Phosphorus | - Scan Time | -10% to -40% | - Scanner Range - Integrity |
-11% to -6% -40% to -10% |
Slightly positive | |||
2 | 1 Phosphorus 1 Flawed Focus Crystals |
-20% to -50% | -20% to -11% -50% to -20% |
Slightly positive | ||||||||
3 | 1 Phosphorus 1 Flawed Focus Crystals 1 Open Symmetric Keys |
-31% to -61% | -31% to -16% -61% to -31% |
Mostly positive | ||||||||
4 | 1 Manganese 1 Focus Crystals 1 Atypical Encryption Archives |
-40% to -70% | -40% to -20% -70% to -40% |
Mostly positive | ||||||||
5 | 1 Arsenic 1 Refined Focus Crystals 1 Adaptive Encryptors Capture |
-50% to -80% | -50% to -25% -80% to -50% |
Extremely positive | ||||||||
Light Weight Mount | Torpedoes | Juri Ishmaak: 1-3 | 1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -2% to -4% 0 |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -4% to -8% 0 |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -12% 0 |
-40% to -20% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Sturdy Mount | Torpedoes | Juri Ishmaak: 1-3 | 1 | 1 Nickel | + Integrity - Thermal Load Armour Piercing |
+20% to +50% 0% to -10% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -5% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -10% to -20% 0% to +14% |
+150% to +100% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
High Capacity Magazine | Mines | Juri Ishmaak: 1-5 | 1 | 1 Mechanical Scrap | + Ammo Clip Size + Ammo Maximum |
+100% +8% to +58% |
+ Mass + Reload Time + Power Draw |
+25% to +10% +20% to 0% +20% to +10% |
Mostly positive | |||
2 | 1 Vanadium 1 Mechanical Scrap |
+100% +19% to +69% |
+50% to +20% +39% to +10% +25% to +14% |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Niobium 1 Mechanical Scrap |
+100% +28% to +77% |
+75% to +29% +61% to +20% +29% to +20% |
Slightly positive | ||||||||
4 | 1 Tin 1 Mechanical Equipment 1 High Density Composites |
+100% +38% to +88% |
+100% to +39% +79% to +29% +35% to +25% |
Extremely positive | ||||||||
5 | 1 Military Supercapacitors 1 Mechanical Components 1 Proprietary Composites |
+100% +50% to +100% |
+125% to +50% +100% to +39% +39% to +29% |
Extremely positive | ||||||||
Rapid Fire Modification | Mines | Juri Ishmaak: 1-5 | 1 | 1 Mechanical Scrap | + Damage Per Second + Rate of Fire - Reload Time - Distributor Draw |
+9% to +18% +17% to +25% -11% to -25% - |
- Damage + Jitter |
-7% to -6% +2.5 to +1.25 |
Mostly positive | |||
2 | 1 Mechanical Scrap 1 Heat Dispersion Plate |
+14% to +23% +25% to +34% -20% to -36% 0 |
-9% to -7% +2 to +1 |
Mostly positive | ||||||||
3 | 1 Mechanical Equipment 1 Specialised Legacy Firmware 1 Precipitated Alloys |
+18% to +31% +34% to +42% -31% to -45% 0 |
-11% to -9% +1.5 to +0.75 |
Slightly positive | ||||||||
4 | 1 Mechanical Components 1 Modified Consumer Firmware 1 Thermic Alloys |
+25% to +37% +42% to +53% -40% to -55% 0 |
-13% to -11% +1 to +0.5 |
Mostly positive | ||||||||
5 | 1 Technetium 1 Configurable Components 1 Precipitated Alloys |
+31% to +44% +53% to +66% -50% to -65% 0 |
-15% to -13% +0.5 to +0.25 |
Mostly positive | ||||||||
Light Weight Mount | Mines | Juri Ishmaak: 1-5 | 1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -2% to -4% 0 |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -4% to -8% 0 |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -12% 0 |
-40% to -20% | Mostly positive | ||||||||
4 | 1 Conductive Components 1 Phase Alloys 1 Proto Light Alloys |
-40% to -75% -8% to -16% 0 |
-50% to -31% | Mostly positive | ||||||||
5 | 1 Conductive Ceramics 1 Proto Radiolic Alloys 1 Proto Light Alloys |
-50% to -90% -11% to -20% 0 |
-61% to -40% | Extremely positive | ||||||||
Sturdy Mount | Mines | Juri Ishmaak: 1-5 | 1 | 1 Nickel | + Integrity - Thermal Load + Armour Piercing |
+20% to +50% 0% to -10% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -6% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -10% to -20% 0% to +15% |
+150% to +100% | Mostly positive | ||||||||
4 | 1 Zinc 1 Molybdenum 1 Tungsten |
+81% to +200% -15% to -25% +10% to +31% |
+200% to +150% | Mostly positive | ||||||||
5 | 1 Technetium 1 Molybdenum 1 High Density Composites |
+100% to +250% -20% to -31% +20% to +45% |
+250% to +200% | Extremely positive | ||||||||
High Capacity Magazine | Missiles | Juri Ishmaak: 1-3 | 1 | 1 Mechanical Scrap | + Ammo Clip Size + Ammo Maximum |
+17% to +66% +0% to +50% |
+ Mass + Reload Time + Power Draw |
+25% to +10% +20% to 0% +20% to +10% |
Mostly positive | For class 1 missiles, the level 3 modification has no additional positive primary effects when compared to the level 2 modification - only additional negative primary effects. This may or may not be a bug, because for class 2 missiles there are additional positive primary effects. | ||
2 | 1 Vanadium 1 Mechanical Scrap |
+34% to +83% +17% to +66% |
+50% to +20% +39% to +10% +25% to +14% |
Slightly positive | ||||||||
3 | 1 Vanadium 1 Niobium 1 Mechanical Scrap |
+34% to +83% +17% to +66% |
+75% to +29% +61% to +20% +31% to +20% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Rapid Fire Modification | Missiles | Juri Ishmaak: 1-3 | 1 | 1 Mechanical Scrap | + Damage Per Second + Rate of Fire - Reload Time - Distributor Draw |
+9% to +18% +17% to +25% -11% to -25% - |
- Damage + Jitter |
-7% to -6% +2.5 to +1.25 |
Mostly positive | |||
2 | 1 Mechanical Scrap 1 Heat Dispersion Plate |
+14% to +23% +25% to +34% -20% to -36% -10% to -20% |
-10% to -7% +2 to +1 |
Mostly positive | ||||||||
3 | 1 Mechanical Equipment 1 Specialised Legacy Firmware 1 Precipitated Alloys |
+18% to +29% +34% to +42% -31% to -45% -15% to -25% |
-12% to -10% +1.5 to +0.75 |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Light Weight Mount | Missiles | Juri Ishmaak: 1-3 | 1 | 1 Phosphorus | - Mass - Power Draw - Distributor Draw |
-11% to -15% -2% to -4% -2% to -4% |
- Integrity | -20% to 0% | Mostly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-20% to -36% -4% to -8% -4% to -8% |
-31% to -10% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-31% to -55% -6% to -12% -6% to -12% |
-40% to -20% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Sturdy Mount | Missiles | Juri Ishmaak: 1-3 | 1 | 1 Nickel | + Integrity - Thermal Load + Armour Piercing |
+20% to +50% 0% to -11% - |
+ Mass | +50% to 0% | Mostly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% -6% to -15% - |
+100% to +50% | Slightly positive | ||||||||
3 | 1 Nickel 1 Shield Emitters 1 Tungsten |
+61% to +150% -11% to -20% 0% to +15% |
+150% to +100% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Misc Leightweight | Fuel Transfer Limpets | Tiana Fortune: 1-5 Ram Tah: 1-4 The Sarge: 1-5 |
1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Fuel Transfer Limpets | Tiana Fortune: 1-5 Ram Tah: 1-4 The Sarge: 1-5 |
1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Fuel Transfer Limpets | Tiana Fortune: 1-5 Ram Tah: 1-4 The Sarge: 1-5 |
1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Misc Leightweight | Prospecting Limpets | Tiana Fortune: 1-5 Ram Tah: 1-4 |
1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Prospecting Limpets | Tiana Fortune: 1-5 Ram Tah: 1-4 |
1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Prospecting Limpets | Tiana Fortune: 1-5 Ram Tah: 1-4 |
1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Misc Leightweight | Hatch Breaker Limpets | Tiana Fortune: 1-5 Ram Tah: 1-3 |
1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Hatch Breaker Limpets | Tiana Fortune: 1-5 Ram Tah: 1-3 |
1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Hatch Breaker Limpets | Tiana Fortune: 1-5 Ram Tah: 1-3 |
1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Misc Leightweight | Collection Limpets | Tiana Fortune: 1-5 Ram Tah: 1-4 |
1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Collection Limpets | Tiana Fortune: 1-5 Ram Tah: 1-4 |
1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Collection Limpets | Tiana Fortune: 1-5 Ram Tah: 1-4 |
1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Expanded FSD Interdictor Capture Arc | FSD Interdictors | Tiana Fortune: 1-3 | 1 | 1 Mechanical Scrap | + Facing Limit | +10% to +39% | + Power Draw - Range |
+14% to 0% -10% to 0% |
Mostly positive | |||
2 | 1 Mechanical Equipment 1 Unusual Encrypted Files |
+20% to +59% | +29% to +10% -20% to -6% |
Slightly positive | ||||||||
3 | 1 Mechanical Components 1 Tagged Encryption Codes 1 Grid Resistors |
+29% to +79% | +45% to +20% -31% to -10% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Misc Leightweight | Life Support | Bill Turner: 1-3 Etienne Dorn: 1-5 |
1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Conductive Components 1 Phase Alloys 1 Proto Light Alloys |
-60% to -70% | -50% to -40% | ? | ||||||||
5 | 1 Conductive Ceramics 1 Proto Light Alloys 1 Proto Radiolic Alloys |
-70% to -80% | -60% to -50% | ? | ||||||||
Misc Reinforced | Life Support | Bill Turner: 1-3 | 1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Misc Shielded | Life Support | Bill Turner: 1-3 | 1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Longer Range FSD Interdictor | FSD Interdictors | Tiana Fortune: 1-3 | 1 | 1 Unusual Encrypted Files | + Range | +5% to +20% | + Mass + Power Draw - Facing Limit |
+10% to 0% +14% to 0% -11% to 0% |
Mostly positive | |||
2 | 1 Atypical Disrupted Wake Echoes 1 Tagged Encryption Codes |
+10% to +31% | +20% to +4% +29% to +10% -21% to -6% |
Slightly positive | ||||||||
3 | 1 Anomalous Bulk Scan Data 1 Anomalous FSD Telemetry 1 Open Symmetric Keys |
+14% to +39% | +29% to +10% +45% to +20% -31% to -11% |
Slightly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Misc Shielded | AFMs | Bill Turner: 1-3 | 1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +31% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +40% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Misc Shielded | Refineries | Bill Turner: 1-3 | 1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Misc Leightweight | Point Defence | Ram Tah: 1-5 | 1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -30% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -30% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Point Defence | Ram Tah: 1-5 | 1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+40% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Point Defence | Ram Tah: 1-5 | 1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+40% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Point Defence Ammo Capacity | Point Defence | Ram Tah: 3 | 1 | 1 Vanadium 1 Niobium 1 Mechanical Scrap |
+ Ammo Maxium | +19% to +50% | + Mass + Reload Time |
+200% to +100% +29% to +10% |
None | |||
Misc Leightweight | Chaff Launchers | Ram Tah: 1-5 | 1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Chaff Launchers | Ram Tah: 1-5 | 1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Chaff Launchers | Ram Tah: 1-5 | 1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Chaff Ammo Capacity | Chaff Launchers | Ram Tah: 3 | 1 | 1 Vanadium 1 Niobium 1 Mechanical Scrap |
+ Ammo Maxium | +20% to +50% | + Mass + Reload Time |
+200% to +100% +31% to +10% |
None | |||
Misc Leightweight | Heat Sink Launchers | Ram Tah: 1-5 | 1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Heat Sink Launchers | Ram Tah: 1-5 | 1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Heat Sink Launchers | Ram Tah: 1-5 | 1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Heat Sink Ammo Capacity | Heat Sink Launchers | Ram Tah: 3 | 1 | 1 Vanadium 1 Niobium 1 Mechanical Scrap |
+ Ammo Maxium | +50% | + Mass + Reload Time |
+200% to +100% +100% to +50% |
None | |||
Misc Leightweight | ECMs | Ram Tah: 1-5 | 1 | 1 Phosphorus | - Mass | -31% to -40% | - Integrity | -20% to -10% | Slightly positive | |||
2 | 1 Manganese 1 Salvaged Alloys |
-40% to -50% | -31% to -20% | Slightly positive | ||||||||
3 | 1 Manganese 1 Salvaged Alloys 1 Conductive Ceramics |
-50% to -61% | -40% to -31% | Mostly positive | ||||||||
4 | 1 Phase Alloys 1 Proto Light Alloys 1 Conductive Components |
-61% to -70% | -50% to -40% | Mostly positive | ||||||||
5 | 1 Proto Radiolic Alloys 1 Proto Light Alloys 1 Conductive Ceramics |
-70% to -80% | -61% to -50% | Extremely positive | ||||||||
Misc Reinforced | Chaff Launchers | Ram Tah: 1-5 | 1 | 1 Nickel | + Integrity | +20% to +50% | + Mass | +100% to +39% | Slightly positive | |||
2 | 1 Nickel 1 Shield Emitters |
+39% to +100% | +150% to +79% | Slightly positive | ||||||||
3 | 1 Tungsten 1 Nickel 1 Shield Emitters |
+61% to +150% | +200% to +120% | Mostly positive | ||||||||
4 | 1 Tungsten 1 Zinc 1 Molybdenum |
+81% to +200% | +250% to +159% | Mostly positive | ||||||||
5 | 1 Molybdenum 1 Technetium 1 High Density Composites |
+100% to +250% | +300% to +200% | Extremely positive | ||||||||
Misc Shielded | Chaff Launchers | Ram Tah: 1-5 | 1 | 1 Worn Shield Emitters | + Integrity | +20% to +50% | + Power Draw | +29% to +20% | Slightly positive | |||
2 | 1 Carbon 1 Shield Emitters |
+39% to +100% | +61% to +39% | Slightly positive | ||||||||
3 | 1 Carbon 1 Shield Emitters 1 High Density Composites |
+61% to +150% | +89% to +61% | Mostly positive | ||||||||
4 | 1 Vanadium 1 Shielding Sensors 1 Proprietary Composites |
+81% to +200% | +120% to +79% | Mostly positive | ||||||||
5 | 1 Tungsten 1 Compound Shielding 1 Core Dynamics Composites |
+100% to +250% | +150% to +100% | Extremely positive | ||||||||
Rapid Charge Shield Cell Bank | Shield Cell Banks | Elvira Martuuk: 1 | 1 | 1 Sulphur | - Spin Up Time + Shield Reinforcement |
-6% to -10% 0% to +2% |
- Duration + Boot Time |
-11% to 0% +10% to 0% |
Mostly positive | |||
2 | ? | ? | ? | ? | ||||||||
3 | ? | ? | ? | ? | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? | ||||||||
Specialised Shield Cell Bank | Shield Cell Banks | Elvira Martuuk: 1 | 1 | 1 Specialised Legacy Firmware | - Boot Time - Thermal Load |
-5% to -9% -3% to -6% |
+ Power Draw + Integrity |
+10% to 0% -10% to 0% |
Mostly positive | |||
2 | ? | ? | ? | ? | ||||||||
3 | ? | ? | ? | ? | ||||||||
4 | ? | ? | ? | ? | ||||||||
5 | ? | ? | ? | ? |
Experimental effects overview
The following table lists experimental effects per module, which engineers provide them and what the effects are.
Module | Experimental effect | Useful for exploration |
Engineer | Cost | Effects | Remarks | |||
---|---|---|---|---|---|---|---|---|---|
Positive | Negative | ||||||||
Attribute | Value | Attribute | Value | ||||||
Frame Shift Drive | Deep Charge | x | Elvira Martuuk | 5 Atypical Disrupted Wake Echoes 3 Galvanising Alloys 1 Eccentric Hyperspace Trajectories |
+ Max Fuel Per Jump | +10% | + Power Draw | +5% | Use this for class 4 and lower FSD modules. For those module classes the "Deep Charge" jump range gain is higher than the "Mass Manager" jump range gain. |
Mass Manager | x | Elvira Martuuk | 5 Atypical Disrupted Wake Echoes 3 Galvanising Alloys 1 Eccentric Hyperspace Trajectories |
+ Optimised Mass | +4% | - Integrity | -8% | Use this for class 5 and higher FSD modules. For those module classes the "Mass Manager" jump range gain is higher than the "Deep Charge" jump range gain. | |
Double Braced | Elvira Martuuk | 5 Atypical Disrupted Wake Echoes 3 Galvanising Alloys 1 Configurable Components |
+ Integrity | +25% | - | - | |||
Stripped Down | Elvira Martuuk | 5 Atypical Disrupted Wake Echoes 3 Galvanising Alloys 1 Proto Light Alloys |
- Mass | -10% | - | - | Don't use this on FSD modules for gaining jump range. For FSD modules the "Deep Charge" or "Mass Manager" jump range gains are higher. | ||
Thermal Spread | Elvira Martuuk | 5 Atypical Disrupted Wake Echoes 3 Galvanising Alloys 1 Heat Vanes 3 Grid Resistors |
- Thermal Load | -10% | - | - | |||
Shield Generator | Fast Charge | Lei Cheung | 5 Worn Shield Emitters 3 Flawed Focus Crystals 1 Compound Shielding |
+ Broken Regen Rate + Regen Rate |
+15% +15% |
- Kinetic Resistance - Thermal Resistance - Explosive Resistance |
-0.9% -1.8% -0.75% |
||
Multi-Weave | Lei Cheung | 5 Worn Shield Emitters 3 Flawed Focus Crystals 1 Aberrant Shield Pattern Analysis |
+ Kinetic Resistance + Thermal Resistance + Explosive Resistance |
+1.8% +3.6% +1.5% |
- Power Draw + Distributor Draw |
+10% +25% |
|||
Hi-Cap | Lei Cheung | 5 Worn Shield Emitters 3 Flawed Focus Crystals 1 Conductive Polymers |
+ Optimal Strength | +6.1% | + Power Draw + Distributor Draw |
+10% +25% |
|||
Lo-Draw | Lei Cheung | 5 Worn Shield Emitters 3 Flawed Focus Crystals 1 Conductive Polymers |
- Power Draw - Distributor Draw |
-20% -20% |
- Optimal Strength - Kinetic Resistance - Thermal Resistance - Explosive Resistance |
-2.03% -0.6% -1.2% -0.5% |
|||
Thermo Block | Lei Cheung | 5 Worn Shield Emitters 3 Flawed Focus Crystals 1 Heat Vanes |
+ Thermal Resistance | +9.6% | - Optimal Strength | -3.05% | |||
Force Block | Lei Cheung | 5 Worn Shield Emitters 3 Flawed Focus Crystals 1 Decoded Emission Data |
+ Kinetic Resistance | +4.8% | - Optimal Strength | -3.05% | |||
Double Braced | Lei Cheung | 5 Worn Shield Emitters 3 Flawed Focus Crystals 1 Configurable Components |
+ Integrity | +15% | - | - | |||
Stripped Down | x | Lei Cheung | 5 Worn Shield Emitters 3 Flawed Focus Crystals 1 Proto Light Alloys |
- Mass | -10% | - | - |
General information about blueprints
- If several engineers have the same blueprint, the material costs on the same blueprint level are the same regardless of engineer.
- The effects of a blueprint on a module can vary with the class of the module. Example: The "Engine Focused Power Distributor" blueprint affects a power distributor's "Engines capacity" in the range of 4-20% for a class 3C power distributor, and in the range of 5-20% for a class 8C power distributor. When you enter an engineer's workshop you can either view a blueprint's effect on a module with the class of your choice, or you can modify a module you have with you. In the latter case the UI displays the effects of the selected blueprint on the actual module you have with you - if that module has already been modified before, the effects shown are relative to the previous modification.
- Experimental Effects can only be applied at an Engineer's workshop, not remotely.
- An Experimental Effect can be applied to a module as soon as it has at least one modification. What might be confusing: If you select a modification grade where you have not yet generated the first modification, the "Experimental Effect" button is disabled. You must select a lower modification grade, then the button becomes enabled.
Improving access to an engineer
- You gain access to an engineer's higher grade modifications by "training": Whenever you apply a modification your access level increases.
- Higher grade modifications bring a higher access level increase. Grade 1 modifications bring only a tiny progress when you are on the road to grade 5, whereas grade 3 and 4 modifications bring substantial progress.
- After you have reached grade 4 access, modding a single module up to grade 5 should be sufficient to reach grade 5 access.
- The percentage how much you have already progressed to the next access level is visible as a bar in the top-left corner of the screen when you have selected a module type.
- As of the April Update (2019) there is a bug that when you reach grade 5 access this progress bar shows the progress from grade 5 to grade 5, and the access level still shows "Grade 4 access".
- After closing the screen and calling it up again, the access level now correctly says "Grade 5 access" and the progress bar is replaced with the message "Maximum grade reached".
- Possibly behind the scenes there is a progress counter still going up?
- You can start applying a higher grade modification before you have fully gained access to the engineer's lower grade. The percentage is visible as a small bar below the button with the grade symbols.
References
- ↑ ED Wiki: Engineers article
- ↑ April 2017 forum thread: Engineering Guide to Exploration