Only one lightweight frame can be equipped on a robot!
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.
Fitting Pre-Requisites
Catagory
Extension
Level
N/A
N/A
N/A
Engine
CPU Usage
5 TF
Reactor Usage
2 RP
Slots
Type
PASSIVE
Slot
Legs
Armor
Armor
-28%
Specific
Mass
-20%
General
Mass
2.00Kg
Packed volume
0.25 U
Volume
0.50 U
Eizbiogh-DFG20 Lightweight Frame []
Only one lightweight frame can be equipped on a robot!
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.
Fitting Pre-Requisites
Catagory
Extension
Level
N/A
N/A
N/A
Engine
CPU Usage
6 TF
Reactor Usage
3 RP
Slots
Type
PASSIVE
Slot
Legs
Armor
Armor
-25%
Specific
Mass
-25%
General
Mass
2.00Kg
Packed volume
0.25 U
Volume
0.50 U
Eizbiogh-DFG20 Lightweight Frame (ProtoType) []
Only one lightweight frame can be equipped on a robot!
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.
Fitting Pre-Requisites
Catagory
Extension
Level
N/A
N/A
N/A
Engine
CPU Usage
6 TF
Reactor Usage
3 RP
Slots
Type
PASSIVE
Slot
Legs
Armor
Armor
-22%
Specific
Mass
-25%
General
Mass
1.50Kg
Packed volume
0.25 U
Volume
0.50 U
MR1000-Boogey Lightweight Frame []
Only one lightweight frame can be equipped on a robot!
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.
Fitting Pre-Requisites
Catagory
Extension
Level
N/A
N/A
N/A
Engine
CPU Usage
5 TF
Reactor Usage
2 RP
Slots
Type
PASSIVE
Slot
Legs
Armor
Armor
-25%
Specific
Mass
-20%
General
Mass
2.00Kg
Packed volume
0.25 U
Volume
0.50 U
MR1000-Boogey Lightweight Frame (ProtoType) []
Only one lightweight frame can be equipped on a robot!
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.
Fitting Pre-Requisites
Catagory
Extension
Level
N/A
N/A
N/A
Engine
CPU Usage
5 TF
Reactor Usage
2 RP
Slots
Type
PASSIVE
Slot
Legs
Armor
Armor
-22%
Specific
Mass
-20%
General
Mass
1.50Kg
Packed volume
0.25 U
Volume
0.50 U
MRE 3000 Lightweight Frame []
Only one lightweight frame can be equipped on a robot!
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.
Fitting Pre-Requisites
Catagory
Extension
Level
N/A
N/A
N/A
Engine
CPU Usage
7 TF
Reactor Usage
3 RP
Slots
Type
PASSIVE
Slot
Legs
Armor
Armor
-25%
Specific
Mass
-30%
General
Mass
2.00Kg
Packed volume
0.25 U
Volume
0.50 U
MRE 3000 Lightweight Frame (ProtoType) []
Only one lightweight frame can be equipped on a robot!
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.