Difference between revisions of "Standard lightweight frame"
From Perpetuum
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| + | [[File:Mass reductor.png|nolink|right|Lightweight frame]] | ||
Cable networks inside the robotic chassis add up to a relatively large mass. The applied module reduces the weight of the robot by replacing regular cables, artificial joints and frame elements making the armor slightly thinner. Lighter robots of course have a higher velocity. | Cable networks inside the robotic chassis add up to a relatively large mass. The applied module reduces the weight of the robot by replacing regular cables, artificial joints and frame elements making the armor slightly thinner. Lighter robots of course have a higher velocity. | ||
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==Special Restrictions== | ==Special Restrictions== | ||
Only '''one''' lightweight frame can be equipped on a robot! | Only '''one''' lightweight frame can be equipped on a robot! | ||
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==Stats== | ==Stats== | ||
Latest revision as of 04:34, 29 May 2017
Cable networks inside the robotic chassis add up to a relatively large mass. The applied module reduces the weight of the robot by replacing regular cables, artificial joints and frame elements making the armor slightly thinner. Lighter robots of course have a higher velocity.
Lightweight frames will aggravate the effect of demobilizers.
Special Restrictions
Only one lightweight frame can be equipped on a robot!
Stats
| ENGINE | |
|---|---|
| CPU usage | 5.00 TF |
| Reactor usage | 2.00 RP |
| DEFENSE | |
| Armor hit points | -27.50% |
| Demobilizer resistance | -25.00% |
| SLOTS | |
| Slot | Legs |
| Type | Passive |
| GENERAL | |
| Mass | 2.00 kg |
| Packed volume | 0.25 U |
| Technological level | T1 |
| Volume | 0.50 U |
| SPECIFIC | |
| Mass | -20.00% |
