Reaction wheel

From Kerbal Space Program Wiki
Revision as of 06:54, 14 August 2013 by XZise (talk | contribs) (Created page with "A '''reaction wheel''' provides torque to a craft and allows it to rotate in space with using only electric charge and is thus available as long as there is a electric pow...")
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to: navigation, search

A reaction wheel provides torque to a craft and allows it to rotate in space with using only electric charge and is thus available as long as there is a electric power generator on board.

All command modules except the EAS-1 External Command Seat have a reaction wheel and can provide torque. Adding additional parts utilising torque allows faster change in rotation.

To operate reaction wheels electric power needs to be available. The electric consumption is defined by it's torque. While command modules needs 0.1× the electric charge to generate the maximum torque (e.g. a torque of 4.2 needs 0.42 E), all dedicated parts needs only 0.3 E but supplying 20 torque (0.015×).

This is one of the systems used by the Stability Augmentation System.

Reaction wheels

Note: This list contain the Avionics Package and the EAS-1 External Command Seat but both don't have any reaction wheels

Dedicated Units

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Torque
(kN·m)
Electricity
(⚡/s)
Inline reaction wheel.png
Small Inline Reaction Wheel Tiny 600 0.05 2 000 9 50 5 0.25
(15 ⚡/min)
Inline advanced stabilizer.png
Advanced Inline Stabilizer Small 1 200 0.1 2 000 9 50 15 0.45
(27 ⚡/min)
ASAS large.png
Advanced Reaction Wheel Module, Large Large 2 100 0.2 2 000 9 50 30 0.6
(36 ⚡/min)

Command Pods

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Torque
(kN · m)
S.A.S.
level
Required Crew/
Power
Capacity
(⚡)
MK1COCKPIT.png
Mk1 Cockpit Small 1 250
(1 241)
1.28
(1.25)
2 000
(1 100)
40 50 10 Crew[Note 1] Crew 50 ⚡
7.5 Units of fuel MP
Mk1 Inline Cockpit.png
Mk1 Inline Cockpit Small 1 600
(1 591)
1.03
(1.00)
2 000
(1 100)
40 50 10 Crew[Note 1] Crew 50 ⚡
7.5 Units of fuel MP
Mk2 Cockpit.png
Mk2 Cockpit Mk2 3 500
(3 482)
2.06
(2.00)
2 500
(1 400)
45 50 15 Crew[Note 1] Crew + Crew 150 ⚡
15 Units of fuel MP
Mk2 InlineCockpit.png
Mk2 Inline Cockpit Mk2 3 500
(3 470)
2.10
(2.00)
2 500
(1 400)
45 50 15 Crew[Note 1] Crew + Crew 150 ⚡
25 Units of fuel MP
Mk3 Cockpit.png
Mk3 Cockpit Mk3, Small 10 000
(9 880)
3.90
(3.50)
2 700
(1 500)
50 50 40/40/20[Note 2] Crew[Note 1] Crew + CrewCrewCrew 500 ⚡
100 Units of fuel MP
Mk1CommandPod Dark.png
Mk1 Command Pod Small, Tiny 600
(588)
0.84
(0.80)
2 200
(1 200)
14 50 5 Crew[Note 1] Crew 50 ⚡
10 Units of fuel MP
Mk1-3CommandPod.png
Mk1-3 Command Pod Large, Small 3 800
(3 764)
2.72
(2.60)
2 400
(1 400)
45 50 15 Crew[Note 1] Crew + CrewCrew 150 ⚡
30 Units of fuel MP
LanderCanMK1.png
Mk1 Lander Can Small 1 500
(1 482)
0.66
(0.60)
2 000
(1 000)
8 50 3 Crew[Note 1] Crew 50 ⚡
15 Units of fuel MP
Mk2canN.png
Mk2 Lander Can Large 3 250
(3 202)
1.515
(1.355)
2 000
(1 200)
8 50 15 Crew[Note 1] Crew + Crew 100 ⚡
40 Units of fuel MP
Cupola.PNG
PPD-12 Cupola Module Large, Small 3 200
(3 188)
1.80
(1.76)
2 000
(1 000)
8 50 9 Crew[Note 1] Crew 200 ⚡
10 Units of fuel MP
Commandseat.png
EAS-1 External Command Seat Radial mounted 200 0.05 1 200 6 50 Crew[Note 1] Crew
RoveMate White.png
Probodobodyne RoveMate Small 800 0.15 1 200 12 50 0 2.4 ⚡/min
(144 ⚡/h)
120 ⚡
QBE.png
Probodobodyne QBE Tiny 360 0.07 1 200 15 50 0 1.5 ⚡/min
(90 ⚡/h)
5 ⚡
HECS.png
Probodobodyne HECS Tiny 650 0.1 1 200 12 50 0.5 1 1.5 ⚡/min
(90 ⚡/h)
10 ⚡
OKTO.png
Probodobodyne OKTO Tiny 450 0.1 1 200 12 50 0.3 0 1.2 ⚡/min
(72 ⚡/h)
10 ⚡
OKTO2.png
Probodobodyne OKTO2 Tiny 1 480 0.04 1 200 12 50 2 1.8 ⚡/min
(108 ⚡/h)
5 ⚡
Stayputnik.png
Probodobodyne Stayputnik Tiny 300 0.05 1 800 12 50 1.67 ⚡/min
(100 ⚡/h)
10 ⚡
HECS2.png
Probodobodyne HECS2 Small 7 500 0.2 2 000 8 50 10 3 3.0 ⚡/min
(180 ⚡/h)
1 000 ⚡
Probestack.png
RC-001S Remote Guidance Unit Small 2 250 0.1 2 000 9 50 0.5 3 3.0 ⚡/min
(180 ⚡/h)
15 ⚡
Probehuge.png
RC-L01 Remote Guidance Unit Large 3 400 0.5 2 000 9 50 1.5 3 4.8 ⚡/min
(288 ⚡/h)
30 ⚡
MK2 Drone Core.png
MK2 Drone Core Mk2 2 700 0.2 2 500 20 50 15/3/3[Note 2] 3 3.0 ⚡/min
(180 ⚡/h)
250 ⚡
MPO.png
MPO Probe Small 9 900
(9 854)
0.895
(0.395)
2 200 9 50 6 3 3.0 ⚡/min
(180 ⚡/h)
1 000 ⚡
45 Units of fuel LF
55 Units of fuel O
MTM.png
MTM Stage Small 21 500
(6 300)
0.795
(0.415)
2 200 12 50 12 2 1.8 ⚡/min
(108 ⚡/h)
4 000 ⚡
3 800 Xenon unit XE
  1. 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 In the "Career" mode in manned command modules, the performance and functionality of the SAS is determined by the presence of at least one kerbonaut with the specialization "Pilot" and the level of his specialization. In the "Science" and "Sandbox" modes, a kerbonaut with any specialization can use all the functionality of the SAS on board the manned command module without restrictions.
  2. 2.0 2.1 Torque differs between axes. These numbers are for pitch/yaw/roll respectively.