Difference between revisions of "MTM Stage"

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The '''MTM Stage''', formally the '''Moho Transfer Module''', is an unmanned [[command module]] with a built-in [[xenon gas]] tank.
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== Usage ==
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Like the [[Probodobodyne HECS2]], the MTM incorporates many parts into one. It has the electric capacity of a [[Z-4K Rechargeable Battery Bank]], almost the torque of a [[Advanced Inline Stabilizer]], and a xenon gas capacity between that of a [[PB-X150 Xenon Container]] and a [[PB-X750 Xenon Container]].
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Compared to other parts, the MTM has a unique set of nodes on its bottom side; it has four symmetric size-0 nodes, followed by a size-1 node below them. This allows the MTM to be fitted with four size-0 engines, while still being attached to a single size-1 [[decoupler]].
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The MTM's unusual shape makes it ill-fitted for atmospheric use, and a fairing should be used to launch it into orbit. However, it is very capable once in space. With just four [[IX-6315 "Dawn" Electric Propulsion System]] ion engines attached, the MTM has a delta-V of 9798 m/s; with only one engine, it has a delta-V of 18616 m/s. However, as ion engines require [[electricity]] to function, the delta-V in practice will be lower.
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The MTM has a higher heat tolerance than most other unmanned command modules.
  
 
== Product description ==
 
== Product description ==
{{quote|The Moho Transfer Module houses a control core and a generously sized xenon tank. Perfect for transporting large scientific payloads, anywhere where large amounts of deltaV are required.|manufacturer=SEC}}
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{{quote|The Moho Transfer Module houses a control core and a generously sized xenon tank. Perfect for transporting large scientific payloads anywhere where large amounts of deltaV are required.|manufacturer=SEC}}
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== Trivia ==
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* Along with the [[MPO Probe]], the MTM Stage is derived from the BepiColombo mission as part of the [[1.10]] Shared Horizons update. Specifically, the MTM Stage is modeled after the ESA's Mercury Transfer Module.
  
 
== Changes ==
 
== Changes ==

Revision as of 03:19, 9 July 2021

MTM Stage
Part image
Command module by
STEADLER Engineering Corps

Radial size Small, Tiny
Cost (total) 21 500.00 Funds
(dry) 6 300.00 Funds
Mass (total) 0.80 t
(dry) 0.42 t
Drag 0.15-0.2
Max. Temp. 2200 K
Volume  ?
Impact Tolerance 12 m/s
Research Large probes.png Large Probes
Unlock cost 15 000 Funds
Since version 1.10
Part configuration MTM_Stage.cfg
Outgoing connectors 5
Command module
Pitch torque 12 kN·m
Yaw torque 12 kN·m
Roll torque 12 kN·m
Electricity required for torque
0.050
s·kN·m
Electricity required 1.80 ⚡/min
Electric capacity 4000 
SAS level 2
Xenon gas tank
Xenon gas 3 800 Xenon unit
KerbNet
Field of View (min) 20 °
(max) 55 °
Detection 5 %
Enhancable No
Modes Biome
Terrain

The MTM Stage, formally the Moho Transfer Module, is an unmanned command module with a built-in xenon gas tank.

Usage

Like the Probodobodyne HECS2, the MTM incorporates many parts into one. It has the electric capacity of a Z-4K Rechargeable Battery Bank, almost the torque of a Advanced Inline Stabilizer, and a xenon gas capacity between that of a PB-X150 Xenon Container and a PB-X750 Xenon Container.

Compared to other parts, the MTM has a unique set of nodes on its bottom side; it has four symmetric size-0 nodes, followed by a size-1 node below them. This allows the MTM to be fitted with four size-0 engines, while still being attached to a single size-1 decoupler.

The MTM's unusual shape makes it ill-fitted for atmospheric use, and a fairing should be used to launch it into orbit. However, it is very capable once in space. With just four IX-6315 "Dawn" Electric Propulsion System ion engines attached, the MTM has a delta-V of 9798 m/s; with only one engine, it has a delta-V of 18616 m/s. However, as ion engines require electricity to function, the delta-V in practice will be lower.

The MTM has a higher heat tolerance than most other unmanned command modules.

Product description

The Moho Transfer Module houses a control core and a generously sized xenon tank. Perfect for transporting large scientific payloads anywhere where large amounts of deltaV are required.

STEADLER Engineering Corps

Trivia

  • Along with the MPO Probe, the MTM Stage is derived from the BepiColombo mission as part of the 1.10 Shared Horizons update. Specifically, the MTM Stage is modeled after the ESA's Mercury Transfer Module.

Changes

1.10
  • Initial release