Équipement > Core Internal > Thruster Mounting
2E
Thrusters
1 980 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
48 t
Integrity
46
Mass
2,5 t
Maximal mass
72 t
Maximal multiplier speed
1,03
Minimal mass
24 t
Minimal multiplier speed
0,83
Optimal multiplier speed
1
=
Power
2 MW
2D
Thrusters
5 930 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
54 t
Integrity
41
Mass
1 t
Maximal mass
81 t
Maximal multiplier speed
1,06
=
Minimal mass
27 t
Minimal multiplier speed
0,86
=
Optimal multiplier speed
1
=
Power
2,25 MW
2C
Thrusters
17 800 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
60 t
Integrity
51
Mass
2,5 t
Maximal mass
90 t
Maximal multiplier speed
1,1
Minimal mass
30 t
Minimal multiplier speed
0,9
Optimal multiplier speed
1
=
Power
2,5 MW
2B
Thrusters
53 410 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
66 t
Integrity
61
Mass
4 t
Maximal mass
99 t
Maximal multiplier speed
1,13
Minimal mass
33 t
Minimal multiplier speed
0,93
Optimal multiplier speed
1
=
Power
2,75 MW
2A
Thrusters
160 220 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
72 t
Integrity
56
Mass
2,5 t
Maximal mass
108 t
Maximal multiplier speed
1,16
Minimal mass
36 t
Minimal multiplier speed
0,96
Optimal multiplier speed
1
=
Power
3 MW
2A
Enhanced Performance Thrusters
1 610 080 cr
Enhanced performance normal-space propulsion system.
Engine Heat Rate
2
Engine Opt Performance
115
Optimal mass
60 t
Integrity
40
Mass
2,5 t
Maximal mass
120 t
Maximal multiplier speed
1,6
Minimal mass
50 t
Minimal multiplier speed
0,9
Optimal multiplier speed
1,15
Power
4 MW
3E
Thrusters
6 270 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
80 t
Integrity
58
Mass
5 t
Maximal mass
120 t
Maximal multiplier speed
1,03
Minimal mass
40 t
Minimal multiplier speed
0,83
Optimal multiplier speed
1
=
Power
2,48 MW
3D
Thrusters
18 810 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
90 t
Integrity
51
Mass
2 t
Maximal mass
135 t
Maximal multiplier speed
1,06
=
Minimal mass
45 t
Minimal multiplier speed
0,86
=
Optimal multiplier speed
1
=
Power
2,79 MW
3C
Thrusters
56 440 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
100 t
Integrity
64
Mass
5 t
Maximal mass
150 t
Maximal multiplier speed
1,1
Minimal mass
50 t
Minimal multiplier speed
0,9
Optimal multiplier speed
1
=
Power
3,1 MW
3B
Thrusters
169 300 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
110 t
Integrity
77
=
Mass
8 t
=
Maximal mass
165 t
Maximal multiplier speed
1,13
Minimal mass
55 t
Minimal multiplier speed
0,93
Optimal multiplier speed
1
=
Power
3,41 MW
3A
Thrusters
507 910 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
120 t
Integrity
70
Mass
5 t
Maximal mass
180 t
Maximal multiplier speed
1,16
Minimal mass
60 t
Minimal multiplier speed
0,96
Optimal multiplier speed
1
=
Power
3,72 MW
3A
Enhanced Performance Thrusters
5 103 950 cr
Enhanced performance normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
115
Optimal mass
90 t
Integrity
55
Mass
5 t
Maximal mass
200 t
Maximal multiplier speed
1,6
Minimal mass
70 t
Minimal multiplier speed
0,9
Optimal multiplier speed
1,25
Power
5 MW
4E
Thrusters
19 880 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
280 t
Integrity
72
Mass
10 t
Maximal mass
420 t
Maximal multiplier speed
1,03
Minimal mass
140 t
Minimal multiplier speed
0,83
Optimal multiplier speed
1
=
Power
3,28 MW
4D
Thrusters
59 630 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
315 t
Integrity
64
Mass
4 t
Maximal mass
472,5 t
Maximal multiplier speed
1,06
=
Minimal mass
157,5 t
Minimal multiplier speed
0,86
=
Optimal multiplier speed
1
=
Power
3,69 MW
4C
Thrusters
178 900 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
350 t
Integrity
80
Mass
10 t
Maximal mass
525 t
Maximal multiplier speed
1,1
Minimal mass
175 t
Minimal multiplier speed
0,9
Optimal multiplier speed
1
=
Power
4,1 MW
4B
Thrusters
536 690 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
385 t
Integrity
96
Mass
16 t
Maximal mass
577,5 t
Maximal multiplier speed
1,13
Minimal mass
192,5 t
Minimal multiplier speed
0,93
Optimal multiplier speed
1
=
Power
4,51 MW
4A
Thrusters
1 610 080 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
420 t
Integrity
88
Mass
10 t
Maximal mass
630 t
Maximal multiplier speed
1,16
Minimal mass
210 t
Minimal multiplier speed
0,96
Optimal multiplier speed
1
=
Power
4,92 MW
5E
Thrusters
63 010 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
560 t
Integrity
86
Mass
20 t
Maximal mass
840 t
Maximal multiplier speed
1,03
Minimal mass
280 t
Minimal multiplier speed
0,83
Optimal multiplier speed
1
=
Power
4,08 MW
5D
Thrusters
189 040 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
Engine Opt Performance
100
Optimal mass
630 t
Integrity
77
Mass
8 t
Maximal mass
945 t
Maximal multiplier speed
1,06
Minimal mass
315 t
Minimal multiplier speed
0,86
Optimal multiplier speed
1
Power
4,59 MW
5C
Thrusters
567 110 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
700 t
Integrity
96
Mass
20 t
Maximal mass
1 050 t
Maximal multiplier speed
1,1
Minimal mass
350 t
Minimal multiplier speed
0,9
Optimal multiplier speed
1
=
Power
5,1 MW
5B
Thrusters
1 701 320 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
770 t
Integrity
115
Mass
32 t
Maximal mass
1 155 t
Maximal multiplier speed
1,13
Minimal mass
385 t
Minimal multiplier speed
0,93
Optimal multiplier speed
1
=
Power
5,61 MW
5A
Thrusters
5 103 950 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
840 t
Integrity
106
Mass
20 t
Maximal mass
1 260 t
Maximal multiplier speed
1,16
Minimal mass
420 t
Minimal multiplier speed
0,96
Optimal multiplier speed
1
=
Power
6,12 MW
6E
Thrusters
199 750 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
960 t
Integrity
102
Mass
40 t
Maximal mass
1 440 t
Maximal multiplier speed
1,03
Minimal mass
480 t
Minimal multiplier speed
0,83
Optimal multiplier speed
1
=
Power
5,04 MW
6D
Thrusters
599 240 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
1 080 t
Integrity
90
Mass
16 t
Maximal mass
1 620 t
Maximal multiplier speed
1,06
=
Minimal mass
540 t
Minimal multiplier speed
0,86
=
Optimal multiplier speed
1
=
Power
5,67 MW
6C
Thrusters
1 797 730 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
1 200 t
Integrity
113
Mass
40 t
Maximal mass
1 800 t
Maximal multiplier speed
1,1
Minimal mass
600 t
Minimal multiplier speed
0,9
Optimal multiplier speed
1
=
Power
6,3 MW
6B
Thrusters
5 393 180 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
1 320 t
Integrity
136
Mass
64 t
Maximal mass
1 980 t
Maximal multiplier speed
1,13
Minimal mass
660 t
Minimal multiplier speed
0,93
Optimal multiplier speed
1
=
Power
6,93 MW
6A
Thrusters
16 179 530 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
1 440 t
Integrity
124
Mass
40 t
Maximal mass
2 160 t
Maximal multiplier speed
1,16
Minimal mass
720 t
Minimal multiplier speed
0,96
Optimal multiplier speed
1
=
Power
7,56 MW
7E
Thrusters
633 200 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
1 440 t
Integrity
118
Mass
80 t
Maximal mass
2 160 t
Maximal multiplier speed
1,03
Minimal mass
720 t
Minimal multiplier speed
0,83
Optimal multiplier speed
1
=
Power
6,08 MW
7D
Thrusters
1 899 600 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
1 620 t
Integrity
105
Mass
32 t
Maximal mass
2 430 t
Maximal multiplier speed
1,06
=
Minimal mass
810 t
Minimal multiplier speed
0,86
=
Optimal multiplier speed
1
=
Power
6,84 MW
7C
Thrusters
5 698 790 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
1 800 t
Integrity
131
Mass
80 t
Maximal mass
2 700 t
Maximal multiplier speed
1,1
Minimal mass
900 t
Minimal multiplier speed
0,9
Optimal multiplier speed
1
=
Power
7,6 MW
7B
Thrusters
17 096 370 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
1 980 t
Integrity
157
Mass
128 t
Maximal mass
2 970 t
Maximal multiplier speed
1,13
Minimal mass
990 t
Minimal multiplier speed
0,93
Optimal multiplier speed
1
=
Power
8,36 MW
7A
Thrusters
51 289 110 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
2 160 t
Integrity
144
Mass
80 t
Maximal mass
3 240 t
Maximal multiplier speed
1,16
Minimal mass
1 080 t
Minimal multiplier speed
0,96
Optimal multiplier speed
1
=
Power
9,12 MW
8E
Thrusters
2 007 240 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
2 240 t
Integrity
135
Mass
160 t
Maximal mass
3 360 t
Maximal multiplier speed
1,03
Minimal mass
1 120 t
Minimal multiplier speed
0,83
Optimal multiplier speed
1
=
Power
7,2 MW
8D
Thrusters
6 021 720 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
2 520 t
Integrity
120
Mass
64 t
Maximal mass
3 780 t
Maximal multiplier speed
1,06
=
Minimal mass
1 260 t
Minimal multiplier speed
0,86
=
Optimal multiplier speed
1
=
Power
8,1 MW
8C
Thrusters
18 065 170 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
2 800 t
Integrity
150
Mass
160 t
Maximal mass
4 200 t
Maximal multiplier speed
1,1
Minimal mass
1 400 t
Minimal multiplier speed
0,9
Optimal multiplier speed
1
=
Power
9 MW
8B
Thrusters
54 195 500 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
3 080 t
Integrity
180
Mass
256 t
Maximal mass
4 620 t
Maximal multiplier speed
1,13
Minimal mass
1 540 t
Minimal multiplier speed
0,93
Optimal multiplier speed
1
=
Power
9,9 MW
8A
Thrusters
162 586 490 cr
Normal-space propulsion system.
Engine Heat Rate
1,3
=
Engine Opt Performance
100
=
Optimal mass
3 360 t
Integrity
165
Mass
160 t
Maximal mass
5 040 t
Maximal multiplier speed
1,16
Minimal mass
1 680 t
Minimal multiplier speed
0,96
Optimal multiplier speed
1
=
Power
10,8 MW