Aurora Player Designed Systems

Overview

All the systems listed here are able to be player designed. This article will detail the various components. It is currently a work in progress.

Laser Technology

Components

Lasers have four components, each with their own tech line. Some of the components are shared with other energy weapons, while some are laser specific. The components are Laser Focal Size, Laser Wavelength, Capacitor Recharge Rate, Reduced Size Lasers. Please note that the maximum range of any laser system is 1.5m km. This is because the smallest time increment is 5 seconds and light has to obey the laws.

Laser Focal Size

Laser Focal Size ranges from 10cm to 80cm. Larger sized beams cause more damage and have a longer base recharge time. Focal size has a bearing on the maximum range of the overall laser system.

Laser Focal Size

Focal Size	Damage	Base RoF
10cm	3	15s
12cm	4	20s
15cm	6	30s
20cm	10	50s
25cm	16	80s
30cm	24	120s
35cm	32	160s
40cm	40	200s
50cm	64	320s
60cm	96	480s
70cm	128	640s
80cm	168	840s

Laser Wavelength

The wavelength of the laser determines the range modifier and the maximum range of the laser.

Laser Wavelengths

Wavelength	Base Max Range	Range Modifier
Infrared Laser	30,000km	1
Visible Light Laser	60,000km	2
Near Ultraviolet Laser	90,000km	3
Ultraviolet Laser	120,000km	4
Far Ultraviolet Laser	150,000km	5
Soft X-Ray Laser	180,000km	6
X-Ray Laser	210,000km	7
Far X-Ray Laser	240,000km	8
Extreme X-Ray Laser	270,000km	9
Near Gamma Ray Laser	300,000km	10
Gamma Ray Laser	330,000km	11
Far Gamma Ray Laser	360,000km	12

Capacitor Recharge Rate

This particular component is shared between all of the energy-based weapons. I will only detail it in this section, and refer back to it from others.

Capacitor recharge rate directly influences the amount of power recharges by the weapon system every 5 seconds. It is equal to the Rate, e.g. Capacitor Recharge Rate 25 = 25 power per 5 seconds.

The available rates are 1, 2, 3, 4, 5, 6, 8, 10, 12, 16, 20, 25.

Reduced Size Lasers

This particular component reduces the size of the laser system at the expense of the recharge rate. There are three levels available. Standard has no change to size or rate. Reduced .75 reduces the size by 25% while increasing the recharge by 4x. Reduced .5 reduces the size by 50% and increases the recharge rate by 20x.

Missile Launchers

Components

The main components of missile launchers are Size, Reload Rate, Platform Type, and Reduced Size.

Launcher Size

This directly affects how big of a missile may be fired. It also affects the Rate of Fire. A launcher may launch any missile available up to and equal to its size, e.g. a size 6 launcher may fire size 1-6 missiles.

Missile Launcher Size

Size	Max Missile Size	Base Rate of Fire
1	1	30
2	2	60
3	3	90
4	4	120
5	5	150
6	6	180
7	7	210
8	8	240
9	9	270
10	10	300
11	11	330
12	12	360
14	14	420
16	16	480
18	18	540
20	20	600
24	24	720

Reload Rate

The reload rate affects how fast the missile launcher may be reloaded and fired. The level of reload rate is used as a divisor to the base reload rate from the size of the launcher. The available rates are 1 - 12.

Platform Type

There are two options available here, Ship-based and PDC-based. The PDC option cuts the base reload time in half.

Reduced Size

The options here allow the launcher to be reduced in size at the expense of reload rate.

Missile Reduced Size

Size	Rate	Notes
Standard	1x
.75	2x
.5	5x
.33	20x
.25	100x	+on Mount Magazine (includes internal magazine)
Box (.15)	15x	No internal reload

Power Plants

Components:

The main components of Power Plants are Power Plant Technology, Power vs Efficiency, Internal Armour Rating, and Size.

Power Plant Technology:

Power Plant Technology increases the amount of power produced per hullsize but also increases the cost of that system as you use higher technology versions. (Note numbers below for 1 hs power plant.)--Journier 00:20, 23 February 2010 (UTC)

Power Plant Technology	Power	Cost
Pressurised Water Reactor	2	6
Pebble Bed Reactor Technology	3	9
Gas-Cooled Fast Reactor Technology	4.5	14
Stellarator Fusion Reactor Technology	6	18
Tokamak Fusion Reactor Technology	8	24
Magnetic Confinement Fusion Reactor Technology	10	30
Inertial Confinement Fusion Reactor Technology	12	36
Solid-core Anti-matter Power Plant Technology	16	48
Gas-core Anti-matter Power Plant Technology	20	60
Plasma-core Anti-matter Power Plant Technology	24	72
Beam Core Anti-matter Power Plant Technology	32	96
Vacuum Energy Power Plant Technology	40	120

Power vs Efficiency:

Power vs Efficiency increases or decreases power output, in exchange for a decrease or increase in fuel efficiency and explosion chance. The Higher your efficiency the lower the cost, the higher the Power produced, the higher the cost.

Power Efficiency	Power Increase	Exp	cost
-100%	50%	35%
-80%	40%	30%
-60%	30%	25%
-50%	25%	20%
-40%	20%	16%
-30%	15%	12%
-20%	10%	10%
-10%	5%	7%
0%	0%	5%
5%	-2.5%	5%
10%	-5%	4%
15%	-7.5%	4%
20%	-10%	3%
25%	-12.5%	3%
30%	-15%	2%
40%	-20%	2%
50%	-25%	1%

Internal Armour Rating:

This is how much armour you have on the Power plants, Internal armour adds 50% to the Hullsize to the component.

Size:

Size of Power plants increases the product of said Power Plants above by the multiple you select. Selections up to 30 are available.

Engines

Components:

Engines are made up of 7 components, Engine Technology, Power vs Efficiency, Internal Armour Rating, Fuel Efficiency, Hyper Drive Efficiency, Thermal Reduction, Engine Platform.

Engine Technology:

Engine Technology Increases power output of ship engines.

Military Engine Technology	Power	Cost
Nuclear Thermal Engine	25
Nuclear Pulse Engine	40
Ion Engine	60
Magneto-plasma Drive	80
Internal Confinement Fusion Drive	100
Magnetic Confinement Fusion Drive	125
Inertial Confinement Fusion Drive	160
Solid Core Anti-matter Drive	200
Gas Core Anti-matter Drive	250
Plasma Core Anti-matter Drive	300
Beam Core Anti-matter Drive	400
Photonic Drive	500

Power vs Efficiency:

Power vs Efficiency increases or decreases power output, in exchange for a decrease or increase in fuel efficiency and explosion chance. The Higher your efficiency the lower the cost, the higher the Power produced, the higher the cost.

Efficiency	Power Increase	Exp	cost
-100%	50%	35%
-80%	40%	30%
-60%	30%	25%
-50%	25%	20%
-40%	20%	16%
-30%	15%	12%
-20%	10%	10%
-10%	5%	7%
0%	0%	5%
5%	-2.5%	5%
10%	-5%	4%
15%	-7.5%	4%
20%	-10%	3%
25%	-12.5%	3%
30%	-15%	2%
40%	-20%	2%
50%	-25%	1%

Internal Armour Rating:

Fuel Efficiency:

Hyper Drive Efficiency:

Thermal Reduction:

Engine Platform:

The Engine platform choices are Military, Commercial, Fast Attack Craft, and Fighter.

Military:

Commercial:

Fast Attack Craft:

Fighter:

Shields

Stop laser and Missile damage until 0.00 strength, then damage passes to armor.

Components

Shield Type

Alpha to Omega 1-15 shield strength

Shield Regeneration Rate

Shield Regeneration Rate depends on the Regeneration Rate research and ranges from 1 - 15

Fuel Efficiency

Fuel efficiency decreases the amount of fuel consumed by a multiple from 1x - 0.1x depending on researched Fuel Efficiency modifier.

Active Sensors/Fire Control

These systems are used to detect targets and provide guidance for missiles.

Components

The components for Active Sensors and Fire Control are Active Sensor Strength, Antenna Size, Minimum Resolution, Hardening and Active Sensor Type.

Active Sensor Strength

This is the strength of the scanners. It uses the Active Grav Sensor Strength research. The values are 10, 12, 16, 21, 28, 36, 48, 60, 80, 100, 135, 180. The range of the scanner is Strength x Resolution x Antenna Size x 10,000km. Missile controls multiply that range by 3.

Antenna Size

This is a variable determined by the player. There is no associated tech line with it. It is used in determining the maximum range of the system.

Minimum Resolution

This is a variable that determines the smallest object the system can detect at range. NOTE: Smaller objects can be detected, but at severely reduced ranges. Resolution Zero Mode is usually reserved for anti-missile installations. Each resolution increment adds 50 tons to the minimum size detected.

Hardening

This is a researched line. It is used to protect the installation against EM damage. Values range from 0 to 8.

Thermal Sensors

Detects Thermal signatures from planets and ships.

Components:

Thermal Sensor Sensitivity:

Depending on Thermal Sensor research can increase to 75

Total Sensor Size:

This is a variable determined by the player. There is no associated tech line with it. It is used in determining the maximum range of the system.

Hardening:

Resistance to Electronic damage.

Jump Engines

Beam Fire Control

This installation is used to control beam weapons.

Components

The components for Beam Fire Control are Beam Fire Control Distance Rating, Fire Control Speed Rating, Fire Control Size vs Range, Fire Control Size vs Tracking Speed, Hardening, Platform Type, Ship Type Limitations.

Beam Fire Control Distance Rating

This rating determines the range at which the beam will be at 50% accuracy. Values are 10,000km, 16,000km, 24,000km, 32,000km, 40,000km, 48,000km, 60,000km, 75,000km, 100,000km, 125,000km, 150,000km, 175,000km.

Fire Control Speed Rating

This determines how fast the fire control can bring the weapon(s) to bear on the target. NOTE: The final speed rating is determined by ship speed or turret speed. Values for this are 1,250km/s, 2,000km/s, 3,000km/s, 4,000km/s, 5,000km/s, 6,250km/s, 8,000km/s, 10,000km/s, 12,500km/s, 15,000km/s, 20,000km/s, 25,000km/s.

Fire Control Size vs. Range/Tracking Speed

These two items are very similar in that the player may reduce or increase the size of the installation for a bonus (or penalty) to the Range or Tracking Speed.

Size vs. Range/Tracking Speed

Size	Range	Tracking Speed
25%	25%	n/a
34%	34%	n/a
50%	50%	n/a
Normal	Normal	Normal
1.25x	n/a	1.25x
1.5x	1.5x	1.5x
2x	2x	2x
3x	3x	3x
4x	4x	4x

Hardening

This is the same as the Hardening on Active Sensors/Missile Control.

Platform Type

This is a switch for Ship or PDC installations. PDC installations have the range increased by 50%.

Ship Type Limitations

This is used to determine if the installation can be emplaced on any ship, or fighters only. Fighter only installations have the base tracking speed multiplied by 4.

Torpedo

Components

=Warhead Strength

Warhead Strength

Strength	Hull Size	fire rate	power requirement
2	5	5	5
3	6	5	7
3	6	5	7
3	6	5	7
3	6	5	7
3	6	5	7
3	6	5	7
3	6	5	7
3	6	5	7
3	6	5	7
3	6	5	7
3	6	5	7
3	6	5	7
4	50%	n/a

Meson Cannon

Railgun

Plasma Carronade

EM Detection Sensors

EM Sensors detect shields, planets, and active sensors from other ships.

Components:

EM Sensors are made up of 3 Components, EM Sensitivity, Total Sensor Size, and Hardening

EM Sensor Sensitivity:

Total Sensor Size:

Hardening:

Protects Sensor from Electronic Damage.

High Power Microwave

Guass Cannon

Cloaking Device

CIWS

Close in Weapon System is for intercepting missiles at short range around the ship mounting them, they do not interact with missiles destined for other ships around them. This should be your final layer of Point Defense against incoming missiles.

Components:

Gauss Cannon Rate of Fire:

Beam Fire Control Distance Rating:

Fire Control Speed Rating:

Active Sensor Strength:

Turret Rotation Gear:

ECCM:

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