Best rFactor 2 Settings for Thrustmaster TMX / T150
rFactor 2 has perhaps the best force feedback system in any simulator I have played. I had heard good things about it, but I was still shocked at how good it really was. You can feel everything about the track and grip level of the car in a very natural, realistic way.
When using the Thrustmaster TMX and T150, most games require significant adjustments to the force feedback settings to make the games play well. Amazingly, that is not the case with rFactor 2. Right out of the box, it works without issue. There are some small tweaks we can do to make it even better, but you could actually play just fine without touching a single setting. That is a remarkable achievement and it speaks to the quality of the simulation that this is possible.
One issue with rFactor 2 is that it lacks an on-screen FFB meter to see if the forces are clipping or not. In this guide, I will show you how to fix this as well as discuss what the few force feedback options do in the game.
Thrustmaster Control Panel Settings
rFactor 2 automatically sets the proper steering angle for each car, so it is best to leave the rotation set to the maximum in the Thrustmaster Control Panel.
Setting | Value |
---|---|
Rotation | 900° (TMX) 1080° (T150) |
Overall Strength of all forces | 100% |
Constant | 100% |
Periodic | 100% |
Spring | 100% |
Damper | 100% |
BOOST | Off |
Auto-Center | by the game |
Spring and Damper are not used by rFactor 2. As a general rule, I leave these at 100% since there are some games that require them.
BOOST should always be turned off. For an in-depth look as to why, see my BOOST Force Feedback Analysis.
rFactor 2 Settings
In Options > Calibrate Controls > Force Feedback Settings:
Setting | Value |
---|---|
Type | Wheel |
Smoothing | 0-3 |
Car specific multiplier | 80% |
Minimum steering torque | 2.0% |
Force feedback direction | Negative |
Smoothing is largely dependent on the track and how you have your wheel mounted. Ideally, this is best left at 0 as it will give the most information through the wheel. However, rough track surfaces can cause the wheel to vibrate to the point of distraction. If this happens, you can raise the FFB Smoothing to alleviate the vibration (2 or 3 is usually enough). For most tracks, you should be able to run this at 0.
Car specific multiplier controls the overall strength of the wheel on a per-car basis. 80% is a good starting value, but feel free to adjust this higher or lower depending on the car and track combo. You can use the FFB Meter described below to determine if the force feedback is clipping or not.
Minimum steering torque tells the game to amplify the very weak forces to a point where it can actually be felt in the wheel. You can find the exact value for your wheel by using the WheelCheck program and running the Min Force test.
Force feedback direction needs to be set to Negative for these wheels. Most other simulators call this the "Invert Force Feedback" setting.
In Options > Calibrate Controls > Steering Settings:
Setting | Value |
---|---|
Rotation limit mode | Software |
Max wheel angle mode | Automatic |
Range set by vehicle | On |
Speed sensitivity | 0% |
Exaggerate yaw | 0.0% |
Look ahead | 0.0% |
Rotation limit mode tells the game how to control the wheel's maximum rotation.
Max wheel angle mode set to Automatic tells the game to get the maximum wheel rotation from the device driver.
Range set by vehicle tells the game to automatically set the wheel rotation based on the real world car data. This includes a Soft Lock, so you won't be able to turn past the maximum rotation angle for the car you are driving.
Speed sensitivity will change the wheel's sensitivity based on the speed of the car. I never use things like this. They are really only useful when playing on a gamepad.
Exaggerate yaw is actually an in-game camera setting. It makes the camera rotate based on the direction of the car's movement. I recommend trying this out, it's completely personal preference if you like it or not.
Look ahead turns the camera to look into the corners, which might make it easier to see the apex of the corner, depending on your monitor setup.
FFB Meter On-Screen Display
For some reason, rFactor 2 lacks a way to see if the force feedback is clipping. This can be solved by using a free, third-party application called SimHub. This will create an overlay that can display any information you want, including an FFB meter.
I learned this from a very helpful video by brobot on YouTube: How to create FFB meter for rFactor 2 using SimHub.
That video shows how to create an overlay with meters for the pedal inputs as well as the FFB. Here are the instructions for creating the FFB Meter alone:
- Download and install SimHub from the official website.
- Open SimHub and select Dash Studio from the sidebar.
- Click the "New Dashboard" button and name it "FFB Meter".
- From the right panel, click on "Dashboard."
- Under Dashboard Properties, set the Width to 40 and Height to 140.
- From the left toolbar, from "More Components", select "Vertical Linear Gauge".
- From the right panel, click on "Screen" and select "VerticalLinearGaugeItem0" from the components list.
-
Set the values as follows:
Setting Value Top 0 Left 0 Width 40 Height 140 Background Color Transparent Gauge Color Red For the Value, click on the "fx" button, choose "Computed Value" and paste into the NCalc Formula:
abs([DataCorePlugin.GameRawData.forceFeedback.mForceValue])*100
- Close the Dash Studio window.
- In the main SimHub window, find the FFB Meter at the bottom of the list. Click on its preview image to start it in Windowed mode. A small black window will appear on your screen that can drag anywhere you like, even while the game is running.
- From the Games section, select rFactor 2. The first time you do this, it will install the necessary files into the rFactor 2 folder automatically.
- Launch rFactor 2. From the rFactor 2 Launcher > Options > Video Settings, set the game to run in Windowed or Borderless mode for the meter to appear.
Now you can easily tell if the force feedback is clipping or not as you drive. Momentary spikes are fine, but you don't want any sustained periods where the meter is full, usually while cornering or under heavy braking. By watching this meter while you drive, you can raise or lower the Car Specific Multiplier setting to the point where you have no sustained clipping.
Conclusion
rFactor 2 is remarkable for how well its force feedback works. It really is the benchmark to which all others should be compared. These tweaks make it just that much better.
Let me know if you have any comments or questions.