Difference between revisions of "Propulsion equipment"

From EVE University Wiki
Jump to: navigation, search
Line 16: Line 16:
 
The max velocity bonus listed in module info is only one factor in actual velocity increase. The maximum velocity of a ship using a propulsion module is
 
The max velocity bonus listed in module info is only one factor in actual velocity increase. The maximum velocity of a ship using a propulsion module is
  
V_max = V_base × ( 1 + V_bonus × ( Thrust / mass ))
+
:''V_max = V_base × ( 1 + V_bonus × ( Thrust / mass ))''
  
 
In practice that last thrust/mass term is almost equal to one when using properly sized propulsion module and the new maximum velocity is just base velocity multiplied by velocity bonus of propulsion module.
 
In practice that last thrust/mass term is almost equal to one when using properly sized propulsion module and the new maximum velocity is just base velocity multiplied by velocity bonus of propulsion module.

Revision as of 19:09, 27 January 2018

Propulsion modules are a type of active module which increase your ship's speed (at the cost of capacitor energy). Higher speed allows you to dictate the range at which combat takes place (optimising the effectiveness of your ship's weapons and/or reducing the effectiveness of enemy ships' weapons).

Afterburners and microwarpdrives

Afterburners (AB) and Microwarpdrives (MWD) are the most commonly used propulsion modules. Afterburners increase the ship's maximum speed by around 150%, while Microwarpdrives increase it by around 500%. Compared with Afterburners, Microwarpdrives use more capacitor energy, reduce the ship's total capacitor capacity, are shut down by warp scramblers, and are generally harder to fit.

There are different sizes of propulsion modules based on basic ship hull size. Using an undersized afterburner on a larger ship will cause the speed boost to become much smaller.

General guideline for module sizes:

  • 1MN/5MN = Frigates and Destroyers (actual thrust is 1,500,000 N).
  • 10MN/100MN = Cruisers, Battle Cruisers and Industrials (actual thrust is 15,000,000 N).
  • 100MN/500MN = Battleships (actual thrust is 150,000,000 N).
  • 10000MN/50000MN = Capital ships (actual thrust is 1,500,000,000 N).

The max velocity bonus listed in module info is only one factor in actual velocity increase. The maximum velocity of a ship using a propulsion module is

V_max = V_base × ( 1 + V_bonus × ( Thrust / mass ))

In practice that last thrust/mass term is almost equal to one when using properly sized propulsion module and the new maximum velocity is just base velocity multiplied by velocity bonus of propulsion module.

Certain ships require certain size afterburner to function properly or heavily favor certain types of modules with hull bonuses.

Oversized afterburners

It is possible to fit ships with oversized afterburners: 10MN on frigate/destroyer or 100MN on cruiser/battlecruiser. The high fitting requirement of larger afterburner usually makes this harder to do. In this case the full maximum velocity formula needs to be used.

Generally the resulting maximum velocity is close to normal sized microwarpdrive but the added bonus is that the oversized afterburner is not shut down by scramblers. The drawback is greatly increased ship mass which makes maneuvering harder.

Related skills

The following skills directly effect afterburners and/or microwarpdrives.

  • Acceleration Control 5% Bonus to Afterburner and Microwarpdrive speed boost per skill level.
  • Afterburner 5% reduction to Afterburner duration and 10% reduction in Afterburner capacitor use per skill level.
  • Fuel Conservation 10% reduction in afterburner capacitor needs per skill level.
  • High Speed Maneuvering 5% reduction in MicroWarpdrive capacitor usage per skill level.

Micro Jump Drives

The Micro Jump Drive (MJD) is a propulsion module that instead of making the ship move faster it jumps the ship forward 100km in the direction it is facing. Upon arrival, the ship maintains its direction and velocity. Warp scramblers can be used to disrupt the module.

Micro jump drives can be used only on t1 and t2 battleships, combat battlecruisers, command ships and deep space transports. Marauders gain specific bonus encouraging use of this module.

Micro jump drives can be used offensively to close on a target or defensively to jump out.

Micro Jump Drive operation

When the module is activated the module spools up for 12 seconds. During this time the ship can not change its direction. The signature radius of the ship is also increased by 150% during the spool up time.

The jump is interrupted if the jumping ship is warp scrambled when spool up time ends. Bubbles, warp disruptors and warp core stabilisers have no effect on micro jump drives. Active bastion module also prevents the ship from jumping. Deactivating the module during spool up time has no effect.

After spool up period the ship jumps 100 km to the direction it is facing. The ship retains its velocity and locked targets through the jump. Other ships will also retain locks on the ship that jumped.

After the jump has been completed or aborted by scrambler the MJD module enters 180 seconds long cooldown period that must pass before the module can be used again. Even if the jump fails the module will enter cooldown period.

Micro jump drive field generator

Micro jump drive field generators (MJDFG) are similar to micro jump drives. But instead of jumping only one ship MJDFG jumps all ships in 6 km range of the ship using the module.

Only command destroyers can use micro jump field generators.

Operation of MJDFG is almost identical to MJD operation. The only difference is that it jumps all ships in 6 km radius. Scramblers can also prevent their targets from getting jumped. This way the ship with MJDFG and some of the ships near it can be jumped while others stay in their places.

Related skills

Micro Jump Drive Operation I is required to use any micro jump drives and reduces the spool up time duration by 5% per skill level.