Difference between revisions of "Wheels"

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(Added practical usage notes about friction control)
(Adopted the layout of the Russian wheel article + added info on wheel settings)
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'''Wheels''' are used for making a ground vehicle move, most notably [[Rover|rovers]]. They require [[Electric charge]] to function.  
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[[File:Rover-wheel-compare.png|right|thumb|300px|From left to right, the [[RoveMax Model XL3]], the [[TR-2L Ruggedized Vehicular Wheel]], the [[RoveMax Model M1]], and the [[RoveMax Model S2]]. Kerbal and command pod for scale.]]
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'''Wheels''' are used to make a ground vehicle move. Unlike landing gear, wheels have built-in electric motors; by using [[electric charge]], they can drive themselves. They are frequently used in [[rover]]s.
  
Each wheel has a top speed that its motors can produce. Beyond this there is a maximum, or breakdown, speed at which the wheel will break. Broken wheels can be repaired by a level 3 [[Engineer]]. Breakdown speed is separate from the impact tolerance that all [[parts]] have. Exceeding impact tolerance completely destroys the part with no way to repair it.
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== List of Wheels ==
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{{Stats Table Wheels}}
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== Usage ==
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The four models of wheels differ in size, which affects their top speed, electricity consumption, and max load. Larger wheels tend to have a greater top speed, higher electricity consumption, and a greater max load.
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If a wheel is subject to high enough stress, it can "break". This form of breakage is similar to solar panels, where the wheel will cease to function. Additionally, a broken wheel will display a "broken" texture and say "Broken: Repair from EVA" in the wheel's PAW. Among other causes, wheels can break when their max load is exceeded (often seen on [[Eve]] rovers), or when the vehicle lands hard on its wheels. The stress on a wheel can be monitored in the right-click menu, under "Wheel Stress". (Note that this stress-driven breakage is different from breaking on impact - if a wheel hits the ground hard enough to exceed the ''impact'' tolerance, it will explode and disappear.)
  
Update 1.1 introduced Unity5 which substantially improved the performance of motorized wheels. Wheel failure is now dependent on impact and other stresses. The amount of stress on the wheel can be monitored by right-clicking on it. Once the wheel stress exceeds 100.0 failure is expected. The user has the ability to select whether steering and/or the motor is enabled or disabled as in previous versions. The suspension can be toggled between enabled or disabled (fixed) in the right-click menu as well.
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Broken wheels can be repaired by an [[Engineer]], using [[EVA Repair Kit]]s depending on the wheel's size: for example, a [[RoveMax Model S2]] will require 1 kit to repair, while a [[RoveMax Model XL3]] will require 4 kits. (Prior to [[1.11]], wheels could be fixed by Engineers for free, as long as said Engineer was level 3 or higher.)
  
 
Wheels also feature traction control and friction control. By default these options are set to Auto with a traction control value of 1.0. The traction control value can be tailored to individual vehicles to prevent wheelspin in different conditions. Traction control can be overridden and a manual limit to the motor output set. Friction control can be overridden and adjusted on a scale from 0.1-5.0. Friction control determines the responsiveness of the wheels with the ground. Low values will have a lot of slip, so the vehicle will slide or drift. High values will have better traction but may make the vehicle more susceptible to rolling over.
 
Wheels also feature traction control and friction control. By default these options are set to Auto with a traction control value of 1.0. The traction control value can be tailored to individual vehicles to prevent wheelspin in different conditions. Traction control can be overridden and a manual limit to the motor output set. Friction control can be overridden and adjusted on a scale from 0.1-5.0. Friction control determines the responsiveness of the wheels with the ground. Low values will have a lot of slip, so the vehicle will slide or drift. High values will have better traction but may make the vehicle more susceptible to rolling over.
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== Wheel settings ==
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By opening a wheel's right-click menu, the player can find many settings, such as:
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* "'''Steering'''" - whether the wheels will rotate in order to steer the vehicle.
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:* The [[RoveMax Model XL3]] does not rotate, and instead uses differential steering to change direction. Its menu will show a "'''Diff Steering'''" to reflect this.
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* "'''Steering: Direction'''" - when switched from "Normal" to "Inverted", the wheel will attempt to steer in the opposite direction. This can be useful when the game attempts to turn a wheel the wrong way.
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* "'''Motor'''" - whether the wheel's motor is enabled. Disabling a motor will reduce electricity consumption, at the cost of... less motors.
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* "'''Motor: Direction''' - when switched from "Normal" to "Inverted", the wheel will rotate in the opposite direction.
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* "'''Friction Control'''" - when switched from "Auto" to "Override", the player can adjust the wheel's friction.
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:* When set to manual, an additional bar (also labeled "Friction Control") appears, allowing friction to be adjusted from 0.1 to 5.0.
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* "'''Spring/Damper'''" - when switched from "Auto" to "Override", the player can adjust the suspension on the wheel.
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:* When set to manual, two additional bars appear:
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::* "'''Spring Strength'''": higher values make the spring stronger, making it push the vehicle up harder.
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::* "'''Damper Strength'''": higher values result in greater dampening, making the vehicle less bouncy.
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* "'''Traction Control''' - toggling this setting will switch between the two traction control modes.
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:* When set to "Auto", a "'''Traction Control'''" bar will appear.
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:* When set to "Override", a "'''Drive Limiter'''" bar will instead appear. This controls the motor's power cap - a drive limiter of 100% results in the motor using 100% of its power, while a limiter of 0% results in the motor staying at 0% of its power.
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* "'''Brakes'''" - this bar lets the player adjust brake strength.
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Additionally, two informational bars are available:
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* "'''Motor'''" - shows the motor's current power output, on a scale from 0 to 100.
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* "'''Wheel Stress'''" - shows the load on the wheels. Once the load reaches 100, the wheels will break.
  
 
=== Tweaking wheel settings to improve Vehicle Stability ===
 
=== Tweaking wheel settings to improve Vehicle Stability ===
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This scheme will improve stability when driving at high speed on flat ground. Beware that it will not help much on uneven terrain.
 
This scheme will improve stability when driving at high speed on flat ground. Beware that it will not help much on uneven terrain.
  
== List of wheels ==
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[[Category:Parts]]
{{Stats Table Wheels}}
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[[Category:Rover wheels| ]]

Revision as of 05:45, 20 August 2021

From left to right, the RoveMax Model XL3, the TR-2L Ruggedized Vehicular Wheel, the RoveMax Model M1, and the RoveMax Model S2. Kerbal and command pod for scale.

Wheels are used to make a ground vehicle move. Unlike landing gear, wheels have built-in electric motors; by using electric charge, they can drive themselves. They are frequently used in rovers.

List of Wheels

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/s)
Max. Motor Speed
(m/s)
Brake Torque
(kNm)
RoveMax Model S2.png
RoveMax Model S2 Radial mounted 300 0.05 1 200 20 20 1.0 12 0.34
RoveMax Model M1.png
RoveMax Model M1 Radial mounted 450 0.075 1 200 50 50 2.5 34 2
Ruggedized rover wheel.png
TR-2L Ruggedized Vehicular Wheel Radial mounted 760 0.105 1 200 100 80 3.5 58 3
RoveMax Model XL3.png
RoveMax Model XL3 Radial mounted 1 200 1.25 1 200 150 200 5.0 15.5 30


Usage

The four models of wheels differ in size, which affects their top speed, electricity consumption, and max load. Larger wheels tend to have a greater top speed, higher electricity consumption, and a greater max load.

If a wheel is subject to high enough stress, it can "break". This form of breakage is similar to solar panels, where the wheel will cease to function. Additionally, a broken wheel will display a "broken" texture and say "Broken: Repair from EVA" in the wheel's PAW. Among other causes, wheels can break when their max load is exceeded (often seen on Eve rovers), or when the vehicle lands hard on its wheels. The stress on a wheel can be monitored in the right-click menu, under "Wheel Stress". (Note that this stress-driven breakage is different from breaking on impact - if a wheel hits the ground hard enough to exceed the impact tolerance, it will explode and disappear.)

Broken wheels can be repaired by an Engineer, using EVA Repair Kits depending on the wheel's size: for example, a RoveMax Model S2 will require 1 kit to repair, while a RoveMax Model XL3 will require 4 kits. (Prior to 1.11, wheels could be fixed by Engineers for free, as long as said Engineer was level 3 or higher.)

Wheels also feature traction control and friction control. By default these options are set to Auto with a traction control value of 1.0. The traction control value can be tailored to individual vehicles to prevent wheelspin in different conditions. Traction control can be overridden and a manual limit to the motor output set. Friction control can be overridden and adjusted on a scale from 0.1-5.0. Friction control determines the responsiveness of the wheels with the ground. Low values will have a lot of slip, so the vehicle will slide or drift. High values will have better traction but may make the vehicle more susceptible to rolling over.

Wheel settings

By opening a wheel's right-click menu, the player can find many settings, such as:

  • "Steering" - whether the wheels will rotate in order to steer the vehicle.
  • The RoveMax Model XL3 does not rotate, and instead uses differential steering to change direction. Its menu will show a "Diff Steering" to reflect this.
  • "Steering: Direction" - when switched from "Normal" to "Inverted", the wheel will attempt to steer in the opposite direction. This can be useful when the game attempts to turn a wheel the wrong way.
  • "Motor" - whether the wheel's motor is enabled. Disabling a motor will reduce electricity consumption, at the cost of... less motors.
  • "Motor: Direction - when switched from "Normal" to "Inverted", the wheel will rotate in the opposite direction.
  • "Friction Control" - when switched from "Auto" to "Override", the player can adjust the wheel's friction.
  • When set to manual, an additional bar (also labeled "Friction Control") appears, allowing friction to be adjusted from 0.1 to 5.0.
  • "Spring/Damper" - when switched from "Auto" to "Override", the player can adjust the suspension on the wheel.
  • When set to manual, two additional bars appear:
  • "Spring Strength": higher values make the spring stronger, making it push the vehicle up harder.
  • "Damper Strength": higher values result in greater dampening, making the vehicle less bouncy.
  • "Traction Control - toggling this setting will switch between the two traction control modes.
  • When set to "Auto", a "Traction Control" bar will appear.
  • When set to "Override", a "Drive Limiter" bar will instead appear. This controls the motor's power cap - a drive limiter of 100% results in the motor using 100% of its power, while a limiter of 0% results in the motor staying at 0% of its power.
  • "Brakes" - this bar lets the player adjust brake strength.

Additionally, two informational bars are available:

  • "Motor" - shows the motor's current power output, on a scale from 0 to 100.
  • "Wheel Stress" - shows the load on the wheels. Once the load reaches 100, the wheels will break.

Tweaking wheel settings to improve Vehicle Stability

  • Divide the wheels into steering-enabled (traditionally front) and steering-disabled (traditionally rear).
  • Use low friction control on the steering wheels, this will allow them to slip instead of attempting to oversteer the vehicle.
  • Use high friction control on non-steering wheels, this will cause the vehicle to want to go in a straight line and resist changing direction.

This scheme will improve stability when driving at high speed on flat ground. Beware that it will not help much on uneven terrain.