nomis3613
Premium
- 831
Hi,
Interested to discuss the effects of the LSD? Read on!
For the LSD, I couldn't think of many tests which could be measured in numbers. But there's a few things, see the attached spreadsheet. I realise it's highly confusing, bear with me, I'll explain it as I go. For all tests, a strength of zero means the standard differential installed (the lowest setting for an LSD is 5).
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RWD CARS- ACCEL SETTING
The test car was a Mercedes 300SL (gullwing). This was chosen because out of the factory it wheelspins horribly, so it is in desperate need of an LSD.
This is the simplest form of LSD tuning. You just want to stop the inside rear spinning up in tight corners. The first thing I tested was straight line acceleration, to see if tightening the diff would improve straight line traction (see test #1). It didn't.
Now, onto the important test: wheelspin out of tight corners. Test #3 (at Apricot Hill) is the maximum speed the car will wheelspin to. For example, with the standard diff the Merc would wheelspin all the way to 205 km/h if the throttle was held open. Increasing the accel setting meant it regained traction at lower speeds (eg earlier).
So increasing the accel setting enabled the inside wheel to stop spinning earlier, as expected. A little bit of accel greatly reduced the wheelspin, then the results plateaued at 110 km/h. This is because below 110 km/h, the engine has enough power to spin both wheels (which the LSD can't do anything to stop).
What the numbers don't show, though, is how the car feels at higher accel settings. I was expecting more understeer, since the diff is opposing the forces needed to rotate the car. However, what I felt was actually better turn-in as the strength is increased with no side-effects whatsoever! Strange... (but useful...)
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RWD CARS- INITIAL SETTING
Same tests and car as the accel setting and the 0-1000m times (test #2) were also were not affect by the initial setting.
For the "tight corners wheelspin" test (test #4), the results were similar to the accel setting. Slightly more initial strength was needed (compared with accel) to get the same result. But the feel was totally different. It was horrible! It gave more understeer in general (consistent with the scrolling text talking about "the car being difficult to turn"), but also entry oversteer when turning-in at full throttle. Also, when the rear did finally let go, it was very sudden and uncontrollable. Yuk.
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RWD CARS- DECEL SETTING
Just like the accel setting, I was expecting the Merc to understeer more with increasing LSD decel strength. Again I was surprised! To me, increasing the LSD decel strength felt like adding negative front toe. Power understeer (aka exit understeer) was reduced, but at the expense of turn-in. I can understand why turn-in would reduce (as the car turns-in, the inside rear needs to decelerate slightly, and LSD decel would oppose this), however if anyone has any theories about why it is reducing power understeer, I'm all ears!
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TBC: FF and 4WD
Hmmm... this post is already getting a bit TLDR, so I'll leave the FF and 4WD cars for another day. Feel free to agree/disagree/ask questions, I'm really interested to hear your thoughts.
Simon
Interested to discuss the effects of the LSD? Read on!
For the LSD, I couldn't think of many tests which could be measured in numbers. But there's a few things, see the attached spreadsheet. I realise it's highly confusing, bear with me, I'll explain it as I go. For all tests, a strength of zero means the standard differential installed (the lowest setting for an LSD is 5).
-----------------------------
RWD CARS- ACCEL SETTING
The test car was a Mercedes 300SL (gullwing). This was chosen because out of the factory it wheelspins horribly, so it is in desperate need of an LSD.
This is the simplest form of LSD tuning. You just want to stop the inside rear spinning up in tight corners. The first thing I tested was straight line acceleration, to see if tightening the diff would improve straight line traction (see test #1). It didn't.
Now, onto the important test: wheelspin out of tight corners. Test #3 (at Apricot Hill) is the maximum speed the car will wheelspin to. For example, with the standard diff the Merc would wheelspin all the way to 205 km/h if the throttle was held open. Increasing the accel setting meant it regained traction at lower speeds (eg earlier).
So increasing the accel setting enabled the inside wheel to stop spinning earlier, as expected. A little bit of accel greatly reduced the wheelspin, then the results plateaued at 110 km/h. This is because below 110 km/h, the engine has enough power to spin both wheels (which the LSD can't do anything to stop).
What the numbers don't show, though, is how the car feels at higher accel settings. I was expecting more understeer, since the diff is opposing the forces needed to rotate the car. However, what I felt was actually better turn-in as the strength is increased with no side-effects whatsoever! Strange... (but useful...)
-----------------------------
RWD CARS- INITIAL SETTING
Same tests and car as the accel setting and the 0-1000m times (test #2) were also were not affect by the initial setting.
For the "tight corners wheelspin" test (test #4), the results were similar to the accel setting. Slightly more initial strength was needed (compared with accel) to get the same result. But the feel was totally different. It was horrible! It gave more understeer in general (consistent with the scrolling text talking about "the car being difficult to turn"), but also entry oversteer when turning-in at full throttle. Also, when the rear did finally let go, it was very sudden and uncontrollable. Yuk.
-----------------------------
RWD CARS- DECEL SETTING
Just like the accel setting, I was expecting the Merc to understeer more with increasing LSD decel strength. Again I was surprised! To me, increasing the LSD decel strength felt like adding negative front toe. Power understeer (aka exit understeer) was reduced, but at the expense of turn-in. I can understand why turn-in would reduce (as the car turns-in, the inside rear needs to decelerate slightly, and LSD decel would oppose this), however if anyone has any theories about why it is reducing power understeer, I'm all ears!
-----------------------------
TBC: FF and 4WD
Hmmm... this post is already getting a bit TLDR, so I'll leave the FF and 4WD cars for another day. Feel free to agree/disagree/ask questions, I'm really interested to hear your thoughts.
Simon
I believe PD took this into account because the Gullwing feels horribly nervous at speed with a stock suspension. Putting even a default sports suspension will cure most of this. This goes for the Triumph Spitfire and the Ginetta too, I think...
Which is pretty sick against the crowd of rear and all-wheel drives. Had to rely on LSD, suspension, and tranny settings to win here. I remember it not being very fun to be honest.
